CN109042578A - A kind of Internet of Things Mosquito killer lamp of dual wavelength - Google Patents

Abstract

The invention discloses a kind of Internet of Things Mosquito killer lamps of dual wavelength, including lamp box, controller and the high voltage package being electrically connected with the controller and mosquito eradication fluorescent tube are installed in lamp box, lamp bead string A and lamp bead string B are installed in mosquito eradication fluorescent tube, and the ultraviolet wavelength of lamp bead string B irradiation is shorter than the ultraviolet wavelength of lamp bead string A irradiation, it can allow Mosquito killer lamp that can attract more mosquitoes while there is bigger range of exposures, in addition, Mosquito killer lamp can pass through the temperature sensing circuit inside controller, the operating state data of the environmental information and Mosquito killer lamp itself in light intensity sensor circuit and the load control circuit acquisition external world, and above-mentioned data information is uploaded to by service platform by the Wireless/wired Internet of Things function of data transmission circuit, the working condition of the energy each Mosquito killer lamp of unified monitoring while capable of clearly knowing local environment information, without to the institute placed outdoors There is Mosquito killer lamp to carry out artificial periodic detection and maintenance, prevents the loss of Mosquito killer lamp, greatly reduce maintenance and use cost.

Description

A kind of Internet of Things Mosquito killer lamp of dual wavelength

Technical field

The present invention relates to a kind of Mosquito killer lamp, the Internet of Things Mosquito killer lamp of especially a kind of dual wavelength.

Background technique

It is the season of breeding mosquitoes in the summer of hot humid, especially families such as mountain area villa, scenic spot, park, greenbelt The mosquito of external environment is more concentrated, and the crowd of dealing can be usually bitten, therefore, above-mentioned region often place Mosquito killer lamp with Achieve the purpose that mosquito eradication, control mosquito, ultraviolet lamp tube used by existing Mosquito killer lamp is broadly divided into long short wavelength's two major classes fluorescent tube, short The quartz burner of biological wavelength draws mosquito effect, but the dim foot of ultraviolet light irradiated with good, and irradiation distance is short, can only inhale Draw small-scale mosquito, and the quartz burner sufficient brightness of growth wavelength, range of exposures is big, but weak to the attraction of mosquito, In addition, the placement region of Mosquito killer lamp is mostly remote field, artificial periodic detection and maintenance are needed, or even will cause losing for Mosquito killer lamp It loses, substantially increases maintenance and use cost.

Summary of the invention

For overcome the deficiencies in the prior art, the present invention provides a kind of high brightness, draws that mosquito ability is strong, has real-time monitoring function The Internet of Things Mosquito killer lamp of the dual wavelength of energy.

The technical solution adopted by the present invention to solve the technical problems is:

A kind of Internet of Things Mosquito killer lamp of dual wavelength, including lamp box are provided with for placing controller at the top of the lamp box Control room, framework is provided with below the control room, and four sides of the framework are mounted on catch net, peace in the framework Equipped with the high voltage package and mosquito eradication fluorescent tube being electrically connected with the controller, lamp bead string A and lamp bead string are installed in the mosquito eradication fluorescent tube B, the ultraviolet wavelength of the lamp bead string B irradiation are shorter than the ultraviolet wavelength of the lamp bead string A irradiation.

The controller includes governor circuit, and the input terminal of the governor circuit is connected with data transmission circuit, temperature inspection Slowdown monitoring circuit and light intensity sensor circuit, output end are connected with load driving circuits and load control circuit, and foregoing circuit is by controller Internal power supply circuit provides working power.

The governor circuit includes main control chip U1, the model STM32F103XELQFP of the main control chip U1.

The power supply circuit include fuse F1, varistor VR, resistance R1, resistance R2, capacitor CBB1, diode ZD1, Diode ZD2, diode D1, diode D2, capacitor EC1, capacitor C1, capacitor EC2 and turn pressure chip U8；The varistor VR One end started to exchange fire line by the fuse F1, the other end divides two-way, connects zero curve all the way, and another way passes sequentially through the resistance R1, capacitor CBB1 and diode ZD2 connect the cathode of the diode ZD1；The anode of the diode ZD1 divides two-way, connects all the way The node of the fuse F1 and the varistor VR, another way connect the cathode of the diode D1；The diode D1's Anode divides two-way, is grounded all the way, and another way connects the section of the diode ZD2 Yu the capacitor CBB1 by the diode D2 Point；The node of termination the resistance R1 and the capacitor CBB1 of the resistance R2, it is another to terminate the diode ZD2 and institute State the node of capacitor CBB1；After the capacitor EC1 is in parallel with the capacitor C1, one end ground connection, the other end divides two-way, meets institute all the way The node of diode ZD2 Yu the diode ZD1 are stated, turns 1 pin of pressure chip U8 described in another termination；Described turn of pressure chip U8 2 pins ground connection, 3 pins by the capacitor EC2 ground connection.

The load control circuit includes control chip U7, charactron DSP1, resistance R2, resistance R3, resistance R4, resistance R5, resistance R6, capacitor C2, capacitor C3, capacitor EC2, diode D3, triode Q1, electromagnet K1, electromagnet K2, connection terminal CN1, by the electromagnet K1 and electromagnet K2 the switch KD1 and switch KD2 of control be attracted respectively, be mounted on the control room table The touch inductor H1 in the face and connection terminal CN2 being electrically connected with the connection terminal CN1；Draw the 1 of the charactron DSP1 Foot connects 17 pins of the control chip U7；2 pins of the charactron DSP1 connect 18 pins of the control chip U7；It is described 3 pins of charactron DSP1 connect 20 pins of the control chip U7；4 pins of the charactron DSP1 connect the control chip 19 pins of U7；5 pins of the charactron DSP1 connect 12 pins of the control chip U7；Draw the 6 of the charactron DSP1 Foot connects 11 pins of the control chip U7 by the resistance R4；7 pins of the charactron DSP1 connect the control chip 1 pin of U7；8 pins of the charactron DSP1 connect 13 pins of the control chip U7 by the resistance R6；The number 9 pins of code pipe DSP1 connect 14 pins of the control chip U7 by the resistance R2；10 pins of the charactron DSP1 Connect 2 pins of the control chip U7；11 pins of the charactron DSP1 connect 15 pins of the control chip U7；The number 12 pins of code pipe DSP1 connect 16 pins of the control chip U7 by the resistance R3；The capacitor EC2 and the capacitor After C3 is in parallel, one end ground connection, the other end divides two-way, connects 5V voltage all the way, and another way connects 10 pins of the control chip U7；Institute The 1 pin ground connection of connection terminal CN2 is stated, 2 pins connect 5V voltage, and 3 pins connect 7 pins of the control chip U7；The touch 1 pin of inductor H1 is grounded, and 2 pins divide two-way, connects 5V voltage, another way ground connection all the way, and 3 pins meet the control chip U7 3 pins；3 pins of the connection terminal CN1 are grounded, and 2 pins connect 5V voltage, and 3 pins connect described three by the resistance R5 The pole B of pole pipe Q1；The pole E of the triode Q1 is grounded, and C divides pole two-way, connects 12V voltage by the diode D3 all the way, separately The electromagnet K1 is passed sequentially through all the way and electromagnet K2 connects 12V voltage；A termination fuse F1 of the switch KD1 with The node of the varistor VR, the other end connect zero curve by the high voltage package.

The load driving circuits include constant current chip UB1, capacitor C4, resistance RCS11, resistance RCS12, resistance R7, electricity Hinder R8, resistance R9, metal-oxide-semiconductor T1, metal-oxide-semiconductor T2；1 pin of the constant current chip UB1 divides two-way, is connect all the way by the capacitor C4 Ground, another way passes sequentially through the resistance R9 and switch KD2 connects 5V voltage；2 pins of the constant current chip UB1 pass through the electricity Resistance R7 connects 51 pins of the main control chip U1, and 3 pins connect 48 pins of the main control chip U1 by the resistance R8；It is described 4 pins of constant current chip UB1 are grounded；5 pins of the constant current chip UB1 connect the pole G of the metal-oxide-semiconductor T2；The constant current chip 6 pins of UB1 divide two-way, connect the pole S of the metal-oxide-semiconductor T2 all the way, and another way is grounded by the resistance RCS12；The constant current 7 pins of chip UB1 divide two-way, connect the pole S of the metal-oxide-semiconductor T1 all the way, and another way is grounded by the resistance RCS11；It is described 8 pins of constant current chip UB1 connect the pole G of the metal-oxide-semiconductor T1；The cathode of the lamp bead string B connects the pole D of the metal-oxide-semiconductor T2, anode Connect the node of the resistance R9 Yu the switch KD2；The cathode of the lamp bead string B connects the pole D of the metal-oxide-semiconductor T1, and anode meets institute State the node of resistance R9 Yu the switch KD2.

The light intensity sensor circuit include detection chip U2, voltage stabilizing chip TL, photo resistance GM, resistance R12, resistance R13, Resistance R14, capacitor C5 and capacitor C6；1 pin of the detection chip U2 is grounded；The detection chip U2 2,3,11,12, 13,14,15,16,17 and 18 pins connect 44,43,42,41,40,39,38,37,36 and 35 pins of the main control chip U1；Institute 4 pins for stating detection chip U2 divide two-way, connect 19 pins of the detection chip U2, another way by the resistance R13 all the way 7 pins of the detection chip U2 are connect by the capacitor C6；Three tunnels of 6 pins of the detection chip U2 point, pass through institute all the way It states photo resistance GM and connects 5V voltage, the second tunnel is grounded by the capacitor C5, and third road is grounded by the resistance R12；It is described Three tunnels of 8 pins of detection chip U2 point, connect 7 pins of the detection chip U2 and the node of the capacitor C6, the second tunnel all the way Connect 10 pins of the detection chip U2, third road ground connection；Three tunnels of 9 pins of the detection chip U2 point connect described steady all the way 3 pins of chip TL are pressed, the second tunnel connects 1 pin of the voltage stabilizing chip TL, and third road connects 5V voltage by the resistance R14, 2 pins of the voltage stabilizing chip TL are grounded；20 pins of the detection chip U2 connect 5V voltage.

The data transmission circuit includes network interface communicating circuit and wireless transmission circuit；The network interface communicating circuit is provided with Network interface, the network interface are mounted on the control chamber surface；The wireless transmission circuit includes communication chip U6, connects Connect device J2, resistance R45, resistance R46, resistance R47, resistance R48, resistance R49, resistance R50, resistance R51, resistance R51 and capacitor C29；1 pin of the communication chip U6 divides two-way, connects 59 pins of the main control chip U1 by the resistance R46 all the way, Another way connects 5V voltage by the resistance R47；2 and 3 pins of the communication chip U6 connect the 58 of the main control chip U1 and draw Foot；4 pins of the communication chip U6 divide two-way, connect 57 pins of the main control chip U1 by the resistance R45 all the way, separately 5V voltage is connect by the resistance R49 all the way；5 pins of the communication chip U6 are grounded；6 pins of the communication chip U6 point Three tunnels pass sequentially through the resistance R51 and resistance R52 ground connection all the way, and the second tunnel connects 1 pin of the connector J2, third road 5V voltage is connect by the resistance R50；7 pins of the communication chip U6 divide two-way, meet the resistance R52 and the electricity all the way The node of R51 is hindered, another way connects 2 pins of the connector J2；8 pins of the communication chip U6 divide two-way, meet 5V all the way Voltage, another way are grounded by the capacitor C29；3 pins of the connector J2 are grounded, and 4 pins connect 5V voltage.

The lamp bead string A ultraviolet light wave a length of 395nm, a length of 365nm of ultraviolet light wave of the lamp bead string B irradiation.

The bottom of the lamp box is equipped with support frame.

The beneficial effects of the present invention are: being equipped with lamp bead string A and lamp bead string B in mosquito eradication fluorescent tube of the invention, and lamp bead string B The ultraviolet wavelength of irradiation is shorter than the ultraviolet wavelength of lamp bead string A irradiation, while enabling the range of exposures of Mosquito killer lamp bigger Attract more mosquitoes, in addition, Mosquito killer lamp can be controlled by temperature sensing circuit, light intensity sensor circuit and the load inside controller The operating state data of circuit processed acquisition extraneous environmental information and Mosquito killer lamp itself, and by data transmission circuit it is wireless/ Above-mentioned data information is uploaded to service platform by wired Internet of Things function, and can clearly know can unite while local environment information The working condition of the one each Mosquito killer lamp of monitoring, without carrying out artificial periodic detection and dimension to all Mosquito killer lamps placed outdoors Shield, prevents the loss of Mosquito killer lamp, greatly reduces maintenance and use cost.

Detailed description of the invention

Present invention will be further explained below with reference to the attached drawings and examples.

Fig. 1 is structural schematic diagram of the invention；

Fig. 2 is side view of the invention；

Fig. 3 is the schematic diagram of lamp bead string A and lamp bead string B；

Fig. 4 is circuit block diagram of the invention；

Fig. 5 is the first part of the circuit diagram of the present embodiment；

Fig. 6 is the second part of the circuit diagram of the present embodiment；

Fig. 7 is the Part III of the circuit diagram of the present embodiment；

Fig. 8 is the Part IV of the circuit diagram of the present embodiment；

Fig. 9 is the Part V of the circuit diagram of the present embodiment；

Figure 10 is the Part VI of the circuit diagram of the present embodiment；

Figure 11 is the Part VII of the circuit diagram of the present embodiment；

Figure 12 is the Part VIII of the circuit diagram of the present embodiment；

Figure 13 is the Part IX of the circuit diagram of the present embodiment.

Specific embodiment

Referring to figs. 1 to Fig. 3, a kind of Internet of Things Mosquito killer lamp of dual wavelength, including lamp box 1, the top setting of the lamp box 1 are useful In the control room 2 for placing controller, the lower section of the control room 2 is provided with framework 3, four side all around of the framework 3 It is mounted on catch net 4, the high voltage package 5 being electrically connected with the controller and mosquito eradication fluorescent tube 6 are installed in the framework 3, it is described The bottom of lamp box 1 is equipped with support frame 9, be equipped in the mosquito eradication fluorescent tube 6 lamp bead string A and lamp bead string B, the lamp bead string A with The specification of lamp bead string B, lamp bead number are all the same, and the ultraviolet wavelength of lamp bead string B irradiation is shorter than the lamp bead string A irradiation Ultraviolet wavelength, the most suitable ultraviolet wavelength of the most suitable ultraviolet light wave of the lamp bead string A a length of 395nm, the lamp bead string B For 365nm, so that the range of exposures of Mosquito killer lamp is big, and it is strong to draw mosquito effect.

Referring to Fig. 4, the controller includes governor circuit, and the input terminal of the governor circuit is connected with data transmission electricity Road, temperature sensing circuit and light intensity sensor circuit, output end are connected with load driving circuits and load control circuit, foregoing circuit By inside controller power supply circuit provide working power (Fig. 5 to Figure 13 is the complete circuit schematic diagram of the present embodiment altogether, For the ease of observation, complete circuit diagram is divided into 9 parts of Fig. 5 to Figure 13, the identical terminal of figure label indicates electricity Connection).

Referring to Fig. 5, the governor circuit includes main control chip U1, the model of the main control chip U1 STM32F103XELQFP, the temperature sensing circuit are mainly made of temperature sensor DS1, are electrically connected with the main control chip U1 It connects, temperature detecting function can be provided for Mosquito killer lamp, Mosquito killer lamp is enabled to detect local environment temperature.

Referring to Fig. 6, the power supply circuit includes fuse F1, varistor VR, resistance R1, resistance R2, capacitor CBB1, two Pole pipe ZD1, diode ZD2, diode D1, diode D2, capacitor EC1, capacitor C1, capacitor EC2 and turn pressure chip U8；The pressure One end of quick resistance VR is started to exchange fire line by the fuse F1, and the other end divides two-way, connects zero curve all the way, and another way passes sequentially through institute State the cathode that resistance R1, capacitor CBB1 and diode ZD2 meet the diode ZD1；The anode of the diode ZD1 divides two-way, The node of the fuse F1 Yu the varistor VR are connect all the way, and another way connects the cathode of the diode D1；Two pole The anode of pipe D1 divides two-way, is grounded all the way, and another way meets the diode ZD2 and the capacitor CBB1 by the diode D2 Node；The node of termination the resistance R1 and the capacitor CBB1 of the resistance R2, another termination diode ZD2 With the node of the capacitor CBB1；After the capacitor EC1 is in parallel with the capacitor C1, one end ground connection, the other end divides two-way, all the way The node of the diode ZD2 Yu the diode ZD1 are connect, turns 1 pin of pressure chip U8 described in another termination；Described turn of pressure core 2 pins of piece U8 are grounded, and 3 pins are grounded by the capacitor EC2, and 1 pin of described turn of pressure chip U8 is with the capacitor C1's Node exports 12V voltage, and 3 pins of described turn of pressure chip U8 export 5V voltage with the node of the capacitor EC2.

Referring to Fig. 7, the load control circuit includes control chip U7, charactron DSP1, resistance R2, resistance R3, resistance R4, resistance R5, resistance R6, capacitor C2, capacitor C3, capacitor EC2, diode D3, triode Q1, electromagnet K1, electromagnet K2, connect Connecting terminal CN1, by the electromagnet K1 and electromagnet K2 the switch KD1 and switch KD2 of control be attracted respectively, be mounted on the control The touch inductor H1 on 2 surface of the room processed and connection terminal CN2 being electrically connected with the connection terminal CN1；The charactron 1 pin of DSP1 connects 17 pins of the control chip U7；2 pins of the charactron DSP1 connect the 18 of the control chip U7 Pin；3 pins of the charactron DSP1 connect 20 pins of the control chip U7；4 pins of the charactron DSP1 meet institute State 19 pins of control chip U7；5 pins of the charactron DSP1 connect 12 pins of the control chip U7；The charactron 6 pins of DSP1 connect 11 pins of the control chip U7 by the resistance R4；7 pins of the charactron DSP1 connect described Control 1 pin of chip U7；8 pins of the charactron DSP1 are drawn by 13 that the resistance R6 meets the control chip U7 Foot；9 pins of the charactron DSP1 connect 14 pins of the control chip U7 by the resistance R2；The charactron DSP1 10 pins connect it is described control chip U7 2 pins；11 pins of the charactron DSP1 connect 15 drawing for the control chip U7 Foot；12 pins of the charactron DSP1 connect 16 pins of the control chip U7 by the resistance R3；The capacitor EC2 with After the capacitor C3 is in parallel, one end ground connection, the other end divides two-way, connects 5V voltage all the way, and another way connects the control chip U7's 10 pins；1 pin of the connection terminal CN2 is grounded, and 2 pins connect 5V voltage, and 3 pins connect 7 pins of the control chip U7； 1 pin of the touch inductor H1 is grounded, and 2 pins divide two-way, connects 5V voltage, another way ground connection all the way, and 3 pins connect the control 3 pins of coremaking piece U7；3 pins of the connection terminal CN1 are grounded, and 2 pins connect 5V voltage, and 3 pins pass through the resistance R5 Connect the pole B of the triode Q1；The pole E of the triode Q1 is grounded, and C divides pole two-way, meets 12V by the diode D3 all the way Voltage, another way passes sequentially through the electromagnet K1 and electromagnet K2 connects 12V voltage；A termination guarantor of the switch KD1 The node of dangerous silk F1 and the varistor VR, the other end connect zero curve, the model of the control chip U7 by the high voltage package 5 For MT2501, in practice, staff can control by touching touch inductor H1 to manually control the switch of Mosquito killer lamp Chip U7 can detect the Current Voltage of high voltage package and mosquito eradication fluorescent tube, and be shown on charactron DSP1.

Referring to Fig. 8, the load driving circuits include constant current chip UB1, capacitor C4, resistance RCS11, resistance RCS12, electricity Hinder R7, resistance R8, resistance R9, metal-oxide-semiconductor T1, metal-oxide-semiconductor T2；1 pin of the constant current chip UB1 divides two-way, all the way by described Capacitor C4 ground connection, another way passes sequentially through the resistance R9 and switch KD2 connects 5V voltage；2 pins of the constant current chip UB1 are logical 51 pins that the resistance R7 meets the main control chip U1 are crossed, 3 pins connect the 48 of the main control chip U1 by the resistance R8 Pin；4 pins of the constant current chip UB1 are grounded；5 pins of the constant current chip UB1 connect the pole G of the metal-oxide-semiconductor T2；It is described 6 pins of constant current chip UB1 divide two-way, connect the pole S of the metal-oxide-semiconductor T2 all the way, and another way is grounded by the resistance RCS12； 7 pins of the constant current chip UB1 divide two-way, connect the pole S of the metal-oxide-semiconductor T1 all the way, and another way is connect by the resistance RCS11 Ground；8 pins of the constant current chip UB1 connect the pole G of the metal-oxide-semiconductor T1；The cathode of the lamp bead string B meets the D of the metal-oxide-semiconductor T2 Pole, anode connect the node of the resistance R9 Yu the switch KD2；The cathode of the lamp bead string B connects the pole D of the metal-oxide-semiconductor T1, just Pole connects the node of the resistance R9 Yu the switch KD2.

Referring to Fig. 9, the light intensity sensor circuit include detection chip U2, voltage stabilizing chip TL, photo resistance GM, resistance R12, Resistance R13, resistance R14, capacitor C5 and capacitor C6；1 pin of the detection chip U2 is grounded；The detection chip U2 2,3, 11,12,13,14,15,16,17 and 18 pins connect 44,43,42,41,40,39,38,37,36 and the 35 of the main control chip U1 Pin；4 pins of the detection chip U2 divide two-way, connect 19 pins of the detection chip U2 by the resistance R13 all the way, Another way connects 7 pins of the detection chip U2 by the capacitor C6；Three tunnels of 6 pins of the detection chip U2 point, all the way 5V voltage is connect by the photo resistance GM, the second tunnel is grounded by the capacitor C5, and third road is connect by the resistance R12 Ground；Three tunnels of 8 pins of the detection chip U2 point, connect 7 pins of the detection chip U2 and the node of the capacitor C6 all the way, Second tunnel connects 10 pins of the detection chip U2, third road ground connection；Three tunnels of 9 pins of the detection chip U2 point, connect all the way 3 pins of the voltage stabilizing chip TL, the second tunnel connect 1 pin of the voltage stabilizing chip TL, and third road meets 5V by the resistance R14 Voltage, the 2 pins ground connection of the voltage stabilizing chip TL；20 pins of the detection chip U2 meet 5V voltage, the detection chip U2 Model STC89C51, the light intensity sensor circuit can detect extraneous intensity of illumination, by ADC sampling and digital-to-analogue conversion Afterwards, it will acquire in data transmission main control chip U1, and can be shown on charactron DSP1.

The data transmission circuit includes network interface communicating circuit and wireless transmission circuit；Referring to Fig.1 0 to Figure 12, the net Mouth communicating circuit is provided with network interface 8, and the network interface 8 is mounted on 2 surface of control room, can external Physical Network Line；Referring to Fig.1 3, the wireless transmission circuit include communication chip U6, connector J2, resistance R45, resistance R46, resistance R47, Resistance R48, resistance R49, resistance R50, resistance R51, resistance R51 and capacitor C29；1 pin of the communication chip U6 divides two-way, 59 pins of the main control chip U1 are connect by the resistance R46 all the way, another way connects 5V voltage by the resistance R47；Institute 2 and 3 pins for stating communication chip U6 connect 58 pins of the main control chip U1；4 pins of the communication chip U6 divide two-way, and one Road connects 57 pins of the main control chip U1 by the resistance R45, and another way connects 5V voltage by the resistance R49；It is described 5 pins of communication chip U6 are grounded；Three tunnels of 6 pins of the communication chip U6 point, pass sequentially through the resistance R51 and electricity all the way R52 ground connection is hindered, the second tunnel connects 1 pin of the connector J2, and third road connects 5V voltage by the resistance R50；The communication 7 pins of chip U6 divide two-way, connect the node of the resistance R52 Yu the resistance R51 all the way, and another way meets the connector J2 2 pins；8 pins of the communication chip U6 divide two-way, connect 5V voltage all the way, and another way is grounded by the capacitor C29；Institute The 3 pins ground connection of connector J2 is stated, 4 pins connect 5V voltage, and 3/4G module in succession, provide wireless networking function for Mosquito killer lamp.

Lamp bead string A and lamp bead string B, and the ultraviolet light wave length of lamp bead string B irradiation are installed in mosquito eradication fluorescent tube of the invention In lamp bead string A irradiation ultraviolet wavelength, enable Mosquito killer lamp range of exposures greatly more while attract more mosquitoes, separately Outside, Mosquito killer lamp can acquire the external world by temperature sensing circuit, light intensity sensor circuit and the load control circuit inside controller The working condition of environmental information and Mosquito killer lamp itself, and will be above-mentioned by the Wireless/wired Internet of Things function of data transmission circuit Data information is uploaded to service platform, the work of the energy each Mosquito killer lamp of unified monitoring while capable of clearly knowing local environment information Make state, without carrying out artificial periodic detection and maintenance to all Mosquito killer lamps placed outdoors, prevents the loss of Mosquito killer lamp, pole The earth reduces maintenance and use cost.

Above embodiment cannot limit the protection scope of the invention, and the personnel of professional skill field are not departing from In the case where the invention general idea, the impartial modification and variation done still fall within the range that the invention is covered Within.

Claims (10)

1. a kind of Internet of Things Mosquito killer lamp of dual wavelength, including lamp box (1), it is provided at the top of the lamp box (1) for placing control The control room (2) of device is provided with framework (3) below the control room (2), and four sides of the framework (3) are mounted on guarantor Protective net (4), the framework (3) is interior to be equipped with the high voltage package (5) being electrically connected with the controller and mosquito eradication fluorescent tube (6), feature It is that lamp bead string A and lamp bead string B are installed in the mosquito eradication fluorescent tube (6), the ultraviolet wavelength of the lamp bead string B irradiation is shorter than institute State the ultraviolet wavelength of lamp bead string A irradiation.

2. the Internet of Things Mosquito killer lamp of dual wavelength according to claim 1, it is characterised in that the controller includes governor circuit, The input terminal of the governor circuit is connected with data transmission circuit, temperature sensing circuit and light intensity sensor circuit, output end connection There are load driving circuits and load control circuit, foregoing circuit provides working power by the power supply circuit inside controller.

3. the Internet of Things Mosquito killer lamp of dual wavelength according to claim 2, it is characterised in that the governor circuit includes master control core Piece U1, the model STM32F103XELQFP of the main control chip U1.

4. the Internet of Things Mosquito killer lamp of dual wavelength according to claim 3, it is characterised in that the power supply circuit includes fuse F1, varistor VR, resistance R1, resistance R2, capacitor CBB1, diode ZD1, diode ZD2, diode D1, diode D2, electricity Hold EC1, capacitor C1, capacitor EC2 and turns pressure chip U8；One end of the varistor VR is started to exchange fire line by the fuse F1, The other end divides two-way, connects zero curve all the way, and another way passes sequentially through the resistance R1, capacitor CBB1 and diode ZD2 and connects described two The cathode of pole pipe ZD1；The anode of the diode ZD1 divides two-way, connects the fuse F1's and varistor VR all the way Node, another way connect the cathode of the diode D1；The anode of the diode D1 divides two-way, is grounded all the way, another way passes through The diode D2 connects the node of the diode ZD2 Yu the capacitor CBB1；A termination resistance R1 of the resistance R2 With the node of the capacitor CBB1, the node of another termination the diode ZD2 and the capacitor CBB1；The capacitor EC1 with After the capacitor C1 is in parallel, one end ground connection, the other end divides two-way, connects the section of the diode ZD2 Yu the diode ZD1 all the way Point turns 1 pin of pressure chip U8 described in another termination；The 2 pins ground connection of described turn of pressure chip U8,3 pins pass through the capacitor EC2 ground connection.

5. the Internet of Things Mosquito killer lamp of dual wavelength according to claim 4, it is characterised in that the load control circuit includes control Coremaking piece U7, charactron DSP1, resistance R2, resistance R3, resistance R4, resistance R5, resistance R6, capacitor C2, capacitor C3, capacitor EC2, Diode D3, triode Q1, electromagnet K1, electromagnet K2, connection terminal CN1, respectively by the electromagnet K1 and electromagnet K2 Be attracted control switch KD1 and switch KD2, the touch inductor H1(7 for being mounted on the control room (2) surface) and with it is described The connection terminal CN2 of connection terminal CN1 electrical connection；1 pin of the charactron DSP1 connects 17 pins of the control chip U7； 2 pins of the charactron DSP1 connect 18 pins of the control chip U7；3 pins of the charactron DSP1 connect the control 20 pins of chip U7；4 pins of the charactron DSP1 connect 19 pins of the control chip U7；The charactron DSP1's 5 pins connect 12 pins of the control chip U7；6 pins of the charactron DSP1 connect the control core by the resistance R4 11 pins of piece U7；7 pins of the charactron DSP1 connect 1 pin of the control chip U7；Draw the 8 of the charactron DSP1 Foot connects 13 pins of the control chip U7 by the resistance R6；9 pins of the charactron DSP1 pass through the resistance R2 Connect 14 pins of the control chip U7；10 pins of the charactron DSP1 connect 2 pins of the control chip U7；The number 11 pins of code pipe DSP1 connect 15 pins of the control chip U7；12 pins of the charactron DSP1 pass through the resistance R3 Connect 16 pins of the control chip U7；After the capacitor EC2 is in parallel with the capacitor C3, one end ground connection, the other end divides two-way, 5V voltage is connect all the way, and another way connects 10 pins of the control chip U7；1 pin of the connection terminal CN2 is grounded, 2 pins 5V voltage is connect, 3 pins connect 7 pins of the control chip U7；The touch inductor H1(7) 1 pin ground connection, 2 pins point Two-way, connects 5V voltage, another way ground connection all the way, and 3 pins connect 3 pins of the control chip U7；The 3 of the connection terminal CN1 Pin ground connection, 2 pins connect 5V voltage, and 3 pins connect the pole B of the triode Q1 by the resistance R5；The E of the triode Q1 Pole ground connection, C divide pole two-way, connect 12V voltage by the diode D3 all the way, and another way passes sequentially through the electromagnet K1 and electricity Magnet K2 connects 12V voltage；The node of termination the fuse F1 and the varistor VR of the switch KD1, the other end Zero curve is connect by the high voltage package (5).

6. the Internet of Things Mosquito killer lamp of dual wavelength according to claim 5, it is characterised in that the load driving circuits include perseverance Flow chip UB1, capacitor C4, resistance RCS11, resistance RCS12, resistance R7, resistance R8, resistance R9, metal-oxide-semiconductor T1, metal-oxide-semiconductor T2；Institute 1 pin for stating constant current chip UB1 divides two-way, all the way by the capacitor C4 be grounded, another way pass sequentially through the resistance R9 and Switch KD2 connects 5V voltage；2 pins of the constant current chip UB1 connect 51 pins of the main control chip U1 by the resistance R7, 3 pins connect 48 pins of the main control chip U1 by the resistance R8；4 pins of the constant current chip UB1 are grounded；The perseverance 5 pins of stream chip UB1 connect the pole G of the metal-oxide-semiconductor T2；6 pins of the constant current chip UB1 divide two-way, meet the MOS all the way The pole S of pipe T2, another way are grounded by the resistance RCS12；7 pins of the constant current chip UB1 divide two-way, connect all the way described The pole S of metal-oxide-semiconductor T1, another way are grounded by the resistance RCS11；8 pins of the constant current chip UB1 meet the metal-oxide-semiconductor T1 The pole G；The cathode of the lamp bead string B connects the pole D of the metal-oxide-semiconductor T2, and anode connects the section of the resistance R9 Yu the switch KD2 Point；The cathode of the lamp bead string B connects the pole D of the metal-oxide-semiconductor T1, and anode connects the node of the resistance R9 Yu the switch KD2.

7. the Internet of Things Mosquito killer lamp of dual wavelength according to claim 3, it is characterised in that the light intensity sensor circuit includes inspection Survey chip U2, voltage stabilizing chip TL, photo resistance GM, resistance R12, resistance R13, resistance R14, capacitor C5 and capacitor C6；The inspection Survey the 1 pin ground connection of chip U2；2,3,11,12,13,14,15,16,17 and 18 pins of the detection chip U2 meet the master Control 44,43,42,41,40,39,38,37,36 and 35 pins of chip U1；4 pins of the detection chip U2 divide two-way, all the way 19 pins of the detection chip U2 are connect by the resistance R13, another way meets the detection chip U2 by the capacitor C6 7 pins；Three tunnels of 6 pins of the detection chip U2 point, connect 5V voltage by the photo resistance GM all the way, the second tunnel passes through The capacitor C5 ground connection, third road is grounded by the resistance R12；Three tunnels of 8 pins of the detection chip U2 point, meet institute all the way 7 pins of detection chip U2 and the node of the capacitor C6 are stated, the second tunnel connects 10 pins of the detection chip U2, and third road connects Ground；Three tunnels of 9 pins of the detection chip U2 point, connect 3 pins of the voltage stabilizing chip TL, the second tunnel connects the pressure stabilizing core all the way 1 pin of piece TL, third road connect 5V voltage, the 2 pins ground connection of the voltage stabilizing chip TL by the resistance R14；The detection 20 pins of chip U2 connect 5V voltage.

8. the Internet of Things Mosquito killer lamp of dual wavelength according to claim 3, it is characterised in that the data transmission circuit includes net Mouth communicating circuit and wireless transmission circuit；The network interface communicating circuit is provided with network interface (8), network interface (8) peace On the control room (2) surface；The wireless transmission circuit includes communication chip U6, connector J2, resistance R45, resistance R46, resistance R47, resistance R48, resistance R49, resistance R50, resistance R51, resistance R51 and capacitor C29；The communication chip U6's 1 pin divides two-way, connects 59 pins of the main control chip U1 by the resistance R46 all the way, and another way passes through the resistance R47 Connect 5V voltage；2 and 3 pins of the communication chip U6 connect 58 pins of the main control chip U1；Draw the 4 of the communication chip U6 Foot divides two-way, connects 57 pins of the main control chip U1 by the resistance R45 all the way, and another way is connect by the resistance R49 5V voltage；5 pins of the communication chip U6 are grounded；Three tunnels of 6 pins of the communication chip U6 point pass sequentially through described all the way Resistance R51 and resistance R52 ground connection, the second tunnel connect 1 pin of the connector J2, and third road connects 5V electricity by the resistance R50 Pressure；7 pins of the communication chip U6 divide two-way, connect the node of the resistance R52 Yu the resistance R51 all the way, and another way connects 2 pins of the connector J2；8 pins of the communication chip U6 divide two-way, connect 5V voltage all the way, and another way passes through the electricity Hold C29 ground connection；3 pins of the connector J2 are grounded, and 4 pins connect 5V voltage.

9. the Internet of Things Mosquito killer lamp of dual wavelength according to claim 1, it is characterised in that the lamp bead string A ultraviolet light wave is a length of 395nm, a length of 365nm of ultraviolet light wave of the lamp bead string B irradiation.

10. the Internet of Things Mosquito killer lamp of dual wavelength according to claim 1, it is characterised in that install the bottom of the lamp box (1) There are support frame (9).