CN205511346U - Intelligence flowers management system - Google Patents

Abstract

The utility model discloses an intelligence flowers management system, it includes: microcontroller module, temperature and humidity sensor, light intensity sensor, wiFi transport module, remote server gateway, relay, relay drive circuit and water pump, the microcontroller module is connected temperature and humidity sensor, light intensity sensor, wiFi transport module and relay drive circuit, relay drive circuit is connected with the relay electricity, the water pump is connected with the relay electricity, the wiFi transport module wireless connection remote server gateway. The utility model discloses can realize the long -range humiture and the illumination condition of looking over flowers of user, can water for flowers by long -range management and control water pump moreover.

Description

A kind of intelligent flower management system

Technical field

The utility model relates to a kind of intelligent flower management system, belongs to flowers management and control technical field.

Background technology

In recent years, intelligent domestic system has begun to gradually come into vogue.But, existing intelligent domestic system majority all without There is automatic flower watering function.Even if some intelligent domestic system has automatic flower watering function, be also generally all use timing or Non-follow control completes.But this mode lack of wisdom, it is impossible to according to floristic difference, intensity of illumination, soil The aspects such as humidity are automatically obtained the control of the opportunity of watering and irrigation amount, thus are unsuitable for the growth of flower plant.And, existing Accelerating for people's rhythm of life, the time of being in is few, does not therefore have the too many time to go to beat to the flower plant in living environment Reason, also easily causes the withered of flower plant.

Utility model content

The purpose of this utility model is, it is provided that a kind of intelligent flower management system, it can realize user and remotely check flowers Humiture and light conditions, and can water to flowers with remote-control water pump.

For solving above-mentioned technical problem, the utility model adopts the following technical scheme that: include that micro controller module, humiture pass Sensor, optical sensor, WiFi transport module, remote server gateway, relay, relay drive circuit and water pump； Described micro controller module connects described Temperature Humidity Sensor, optical sensor, WiFi transport module and relay and drives electricity Road；Described relay drive circuit electrically connects with relay；Described water pump electrically connects with relay；Described WiFi transport module Wireless connection remote server gateway.

A kind of intelligent flower management system, described Temperature Humidity Sensor uses water proof type SHT10 temperature and humidity sensing Device；Described optical sensor uses main control chip to be the optical sensor of BH1750；Described WiFi transport module uses master control Chip is the WiFi transport module of ESP8266.It is thus possible to detect humiture, intensity of illumination, and energy more accurately Faster WiFi transmission speed is enough provided, and cost can be reduced.

A kind of intelligent flower management system, described micro controller module uses main control chip to be the process of STM32 Device；It is thus able to provide faster processing speed, and the effectively save electric energy of energy, reduces cost.

A kind of intelligent flower management system, described water pump uses 385 membrane pumps of 9V such that it is able to change current Flow, and increase the power of water pump, process of can quickly flowers being watered.

A kind of intelligent flower management system, described relay drive circuit includes resistance R1, R2, triode Q； The emitter stage of Q is connected to positive source, and the base stage of Q is connected to micro controller module by R1；The base stage of Q is passed through with colelctor electrode R2 is connected with each other；The colelctor electrode of Q is additionally coupled to the 3V end of relay；It is thus possible to sensitive, it is stably driven with relay, And simple in construction, low cost of manufacture.

A kind of intelligent flower management system, described relay is also associated with peripheral circuit；Described peripheral circuit includes two Pole pipe D1 and binding post P；The AC end of relay is connected to the port 1 of binding post P, port 2 ground connection of P；Simultaneously The port 1 of binding post P and port 2 connect the two ends of water pump；D1 in parallel between the 3V end of relay and D end, D1 is just Pole is additionally coupled to the colelctor electrode of Q；And then the safety that energy effective guarantee relay runs is with stable.

A kind of intelligent flower management system, described relay uses HK4100F model relay；Described first electricity Resistance resistance is 1K Ω；Described second resistance is 4.7K Ω；It is thus possible to effectively reduce cost, and improve stablizing of circuit Property.

A kind of intelligent flower management system, also includes mu balanced circuit, described mu balanced circuit and described microcontroller mould Block, Temperature Humidity Sensor, optical sensor, WiFi transport module and relay drive circuit electrical connection；Described mu balanced circuit Including voltage stabilizing chip AVR, potentiometer RP, resistance R3, R4, R5, electric capacity C1, C2, C3, diode D2 and electricity Sense L；The Vin end of AVR connects VCC voltage input end, one end of R4 and one end of C2；The R4 other end and R5 One end be connected, the other end ground connection of R5；C2 other end ground connection；The ON/OFF end of AVR and GND end ground connection； The Vo end of AVR connects one end and D2 negative pole, the D2 plus earth of L；The L other end connects 3V3 mu balanced circuit voltage Output and one end of C3, C3 other end ground connection；The FB end of AVR is connected to one end of R3, RP and C1 respectively；R3 Other end ground connection, the other end of RP and C1 is connected to mu balanced circuit voltage output end 3V3.It is thus possible to provide stable for system Voltage, and simple in construction, it is easy to manufacture.

A kind of intelligent flower management system, described voltage stabilizing chip AVR uses LM2596s model adjuster.Thus More stable voltage can be provided, and can effectively reduce cost.

A kind of intelligent flower management system, the resistance of described resistance R3 is 1K Ω；The resistance of described resistance R4 is 15KΩ；The resistance of described resistance R5 is 5K Ω；Described electric capacity C1 is the polarity free capacitor of 0.1uF；Described electric capacity C2 is The polarized electric capacity of 100uF, C2 positive pole is connected to the voltage input end of regulator AVR, other end ground connection；Institute Stating the polarized electric capacity that electric capacity C3 is 220uF, described electric capacity C3 positive pole is connected to inductance, other end ground connection；Described potentiometer RP is adjustable 10K potentiometer；The inductance value of described inductance L is 47UH.It is thus possible to output voltage accurately and stably, protect Barrier security of system is stably run.

Compared with prior art, the utility model by utilize micro controller module, Temperature Humidity Sensor, optical sensor, WiFi transport module, remote server gateway, relay, relay drive circuit and water pump；Described micro controller module is even Connect described Temperature Humidity Sensor, optical sensor, WiFi transport module and relay drive circuit；Described relay drives electricity Road electrically connects with relay；Described water pump electrically connects with relay；Described WiFi transport module wireless connection remote server net Close such that it is able to realize user and remotely check humiture and the light conditions of flowers, and can be with remote-control water pump to flowers Water.The utility model increases the power of water pump, process of more rapid can watering flowers.

Accompanying drawing explanation

Fig. 1 is the structure connection diagram of a kind of embodiment of the present utility model；

Fig. 2 is the circuit connection diagram of the utility model repeat circuit drive circuit and relay；

Fig. 3 is the circuit theory diagrams of mu balanced circuit in the utility model；

Fig. 4 is WiFi transport module and the circuit theory diagrams of peripheral circuit thereof in the utility model；

Fig. 5 is the circuit theory diagrams of micro controller module in the utility model.

Reference: 1-micro controller module, 2-Temperature Humidity Sensor, 3-optical sensor, 4-WiFi transport module, 5-is remote Journey server gateway, 6-relay drive circuit, 7-mu balanced circuit, 8-water pump, 9-relay.

With detailed description of the invention, the utility model is further described below in conjunction with the accompanying drawings.

Detailed description of the invention

Embodiment 1 of the present utility model, as shown in Fig. 1～Fig. 5: a kind of intelligent flower management system, including microcontroller mould Block 1, Temperature Humidity Sensor 2, optical sensor 3, WiFi transport module 4, remote server gateway 5, relay 9, continue Electrical apparatus driving circuit 6 and water pump 8；Described micro controller module 1 connect described Temperature Humidity Sensor 2, optical sensor 3, WiFi transport module 4 and relay drive circuit 6；Described relay drive circuit 6 electrically connects with relay 9；Described water Pump 8 electrically connects with relay 9；Described WiFi transport module 4 wireless connection remote server gateway 5.Described humiture passes Sensor 2 uses water proof type SHT10 Temperature Humidity Sensor；The light that described optical sensor 3 uses main control chip to be BH1750 According to sensor；The WiFi transport module that described WiFi transport module 4 uses main control chip to be ESP8266.Described microcontroller The processor that device module 1 uses main control chip to be STM32.Described water pump 8 uses 385 membrane pumps of 9V.Described relay Device drive circuit 6 includes resistance R1, R2 and triode Q；The emitter stage of Q is connected to positive source, and the base stage of Q passes through R1 It is connected to micro controller module 1；The base stage of Q is connected with each other by R2 with colelctor electrode；The colelctor electrode of Q is additionally coupled to relay The 3V end of 9.Described relay 9 is also associated with peripheral circuit；Described peripheral circuit includes diode D1 and binding post P；The AC end of relay 9 is connected to the port 1 of binding post P, port 2 ground connection of P；The port of binding post P simultaneously 1 and port 2 connect the two ends of water pump 8；D1 in parallel between the 3V end of relay 9 and D end, D1 positive pole is additionally coupled to Q Colelctor electrode.Described relay 9 uses HK4100F model relay；Described resistance R1 resistance is 1K Ω；Described resistance R2 resistance is 4.7K Ω.Also include that mu balanced circuit 7, described mu balanced circuit 7 pass with described micro controller module 1, humiture Sensor 2, optical sensor 3, WiFi transport module 4 and relay drive circuit 6 electrically connect；Described mu balanced circuit 7 includes Voltage stabilizing chip AVR, potentiometer RP, resistance R3, R4, R5, electric capacity C1, C2, C3, diode D2 and inductance L；The Vin end of AVR connects VCC voltage input end, one end of R4 and one end of C2；The R4 other end and the one of R5 End is connected, the other end ground connection of R5；C2 other end ground connection；The ON/OFF end of AVR and GND end ground connection；AVR Vo end connect one end of L and D2 negative pole, D2 plus earth；The L other end connects has 3V3 mu balanced circuit voltage to export End and one end of C3, C3 other end ground connection；The FB end of AVR is connected to one end of R3, RP and C1 respectively；R3 another End ground connection, the other end of RP and C1 is connected to mu balanced circuit voltage output end 3V3.Described voltage stabilizing chip AVR uses LM2596s model adjuster.The resistance of described resistance R3 is 1K Ω；The resistance of described resistance R4 is 15K Ω；Described electricity The resistance of resistance R5 is 5K Ω；Described electric capacity C1 is the polarity free capacitor of 0.1uF；Described electric capacity C2 be 100uF have pole Property electric capacity, C2 positive pole is connected to the voltage input end of regulator AVR, other end ground connection；Described electric capacity C3 is The polarized electric capacity of 220uF, described electric capacity C3 positive pole is connected to inductance, other end ground connection；Described potentiometer RP is adjustable 10K potentiometer；The inductance value of described inductance L is 47UH.

Embodiment 2 of the present utility model, as shown in Fig. 1～Fig. 5: a kind of intelligent flower management system, including microcontroller Module 1, Temperature Humidity Sensor 2, optical sensor 3, WiFi transport module 4, remote server gateway 5, relay 9, Relay drive circuit 6 and water pump 8；Described micro controller module 1 connects described Temperature Humidity Sensor 2, optical sensor 3, WiFi transport module 4 and relay drive circuit 6；Described relay drive circuit 6 electrically connects with relay 9；Described Water pump 8 electrically connects with relay 9；Described WiFi transport module 4 wireless connection remote server gateway 5.Described relay Drive circuit 6 includes resistance R1, R2 and triode Q；The emitter stage of Q is connected to positive source, and the base stage of Q is by R1 even It is connected to micro controller module 1；The base stage of Q is connected with each other by R2 with colelctor electrode；The colelctor electrode of Q is additionally coupled to relay 9 3V end.

Embodiment 3 of the present utility model, as shown in Fig. 1～Fig. 5: a kind of intelligent flower management system, including microcontroller mould Block 1, Temperature Humidity Sensor 2, optical sensor 3, WiFi transport module 4, remote server gateway 5, relay 9, continue Electrical apparatus driving circuit 6 and water pump 8；Described micro controller module 1 connect described Temperature Humidity Sensor 2, optical sensor 3, WiFi transport module 4 and relay drive circuit 6；Described relay drive circuit 6 electrically connects with relay 9；Described water Pump 8 electrically connects with relay 9；Described WiFi transport module 4 wireless connection remote server gateway 5.Described relay drives Dynamic circuit 6 includes resistance R1, R2 and triode Q；The emitter stage of Q is connected to positive source, and the base stage of Q is connected by R1 To micro controller module 1；The base stage of Q is connected with each other by R2 with colelctor electrode；The colelctor electrode of Q is additionally coupled to relay 9 3V end.Described relay 9 is also associated with peripheral circuit；Described peripheral circuit includes diode D1 and binding post P；Continue The AC end of electrical equipment 9 is connected to the port 1 of binding post P, port 2 ground connection of P；Simultaneously binding post P port 1 and end Mouth 2 connects the two ends of water pumps 8；D1 in parallel between the 3V end of relay 9 and D end, D1 positive pole is additionally coupled to the collection of Q Electrode.

Embodiment 4 of the present utility model, as shown in Fig. 1～Fig. 5: a kind of intelligent flower management system, including microcontroller mould Block 1, Temperature Humidity Sensor 2, optical sensor 3, WiFi transport module 4, remote server gateway 5, relay 9, continue Electrical apparatus driving circuit 6 and water pump 8；Described micro controller module 1 connect described Temperature Humidity Sensor 2, optical sensor 3, WiFi transport module 4 and relay drive circuit 6；Described relay drive circuit 6 electrically connects with relay 9；Described water Pump 8 electrically connects with relay 9；Described WiFi transport module 4 wireless connection remote server gateway 5.Also include voltage stabilizing electricity Road 7, described mu balanced circuit 7 and described micro controller module 1, Temperature Humidity Sensor 2, optical sensor 3, WiFi transmission Module 4 and relay drive circuit 6 electrically connect；Described mu balanced circuit 7 includes voltage stabilizing chip AVR, potentiometer RP, resistance R3, R4, R5, electric capacity C1, C2, C3, diode D2 and inductance L；The Vin end of AVR connects VCC voltage Input, one end of R4 and one end of C2；The R4 other end is connected with one end of R5, the other end ground connection of R5；C2 Other end ground connection；The ON/OFF end of AVR and GND end ground connection；One end and the D2 of the Vo end connection L of AVR bear Pole, D2 plus earth；The L other end connects 3V3 mu balanced circuit voltage output end and one end of C3, another termination of C3 Ground；The FB end of AVR is connected to one end of R3, RP and C1 respectively；R3 other end ground connection, the other end of RP and C1 is even To mu balanced circuit voltage output end 3V3.

Embodiment 5 of the present utility model, as shown in Fig. 1～Fig. 5: a kind of intelligent flower management system, including microcontroller mould Block 1, Temperature Humidity Sensor 2, optical sensor 3, WiFi transport module 4, remote server gateway 5, relay 9, continue Electrical apparatus driving circuit 6 and water pump 8；Described micro controller module 1 connect described Temperature Humidity Sensor 2, optical sensor 3, WiFi transport module 4 and relay drive circuit 6；Described relay drive circuit 6 electrically connects with relay 9；Described water Pump 8 electrically connects with relay 9；Described WiFi transport module 4 wireless connection remote server gateway 5.Also include voltage stabilizing electricity Road 7, described mu balanced circuit 7 and described micro controller module 1, Temperature Humidity Sensor 2, optical sensor 3, WiFi transmission Module 4 and relay drive circuit 6 electrically connect；Described mu balanced circuit 7 includes voltage stabilizing chip AVR, potentiometer RP, resistance R3, R4, R5, electric capacity C1, C2, C3, diode D2 and inductance L；The Vin end of AVR connects VCC voltage Input, one end of R4 and one end of C2；The R4 other end is connected with one end of R5, the other end ground connection of R5；C2 Other end ground connection；The ON/OFF end of AVR and GND end ground connection；One end and the D2 of the Vo end connection L of AVR bear Pole, D2 plus earth；The L other end connects 3V3 mu balanced circuit voltage output end and one end of C3, another termination of C3 Ground；The FB end of AVR is connected to one end of R3, RP and C1 respectively；R3 other end ground connection, the other end of RP and C1 is even To mu balanced circuit voltage output end 3V3.The resistance of described resistance R3 is 1K Ω；The resistance of described resistance R4 is 15K Ω； The resistance of described resistance R5 is 5K Ω；Described electric capacity C1 is the polarity free capacitor of 0.1uF；Described electric capacity C2 is 100uF Polarized electric capacity, C2 positive pole is connected to the voltage input end of regulator AVR, other end ground connection；Described electric capacity C3 is the polarized electric capacity of 220uF, and described electric capacity C3 positive pole is connected to inductance, other end ground connection；Described potentiometer RP is Adjustable 10K potentiometer；The inductance value of described inductance L is 47UH.

Embodiment 6 of the present utility model, as shown in Fig. 1～Fig. 5: a kind of intelligent flower management system, it is characterised in that bag Include micro controller module 1, Temperature Humidity Sensor 2, optical sensor 3, WiFi transport module 4, remote server gateway 5, relay 9, relay drive circuit 6 and water pump 8；Described micro controller module 1 connect described Temperature Humidity Sensor 2, Optical sensor 3, WiFi transport module 4 and relay drive circuit 6；Described relay drive circuit 6 and relay 9 electricity Connect；Described water pump 8 electrically connects with relay 9；Described WiFi transport module 4 wireless connection remote server gateway 5.

The operation principle of a kind of embodiment of the present utility model: micro controller module 1 gathers Temperature Humidity Sensor 2 and illumination sensing The information of device 3, and this information is sent to by WiFi transport module 4 the remote server gateway 5 specified, it is achieved data Synchronizing, remote server gateway 5 and the intelligent terminal communication of user, therefore user can remotely check flowers by intelligent terminal Humiture and light conditions.And can be with the start and stop of remote-control water pump 8.Mu balanced circuit 7 can be each mould in system simultaneously Block provides stable voltage source.

Claims (10)

1. an intelligent flower management system, it is characterized in that, including micro controller module (1), Temperature Humidity Sensor (2), optical sensor (3), WiFi transport module (4), remote server gateway (5), relay drive circuit (6), water pump (8) and relay (9)；Described micro controller module (1) connects described Temperature Humidity Sensor (2), optical sensor (3), WiFi transport module (4) and relay drive circuit (6)；Described relay drive circuit (6) electrically connects with relay (9)；Described water pump (8) electrically connects with relay (9)；Described WiFi transport module (4) wireless connection remote server gateway (5).

A kind of intelligent flower management system the most according to claim 1, it is characterised in that described Temperature Humidity Sensor (2) uses water proof type SHT10 Temperature Humidity Sensor；Described optical sensor (3) uses main control chip to be the optical sensor of BH1750；The WiFi transport module that described WiFi transport module (4) uses main control chip to be ESP8266.

A kind of intelligent flower management system the most according to claim 1, it is characterised in that described micro controller module (1) uses main control chip to be the processor of STM32.

A kind of intelligent flower management system the most according to claim 1, it is characterised in that described water pump (8) uses 385 membrane pumps of 9V.

A kind of intelligent flower management system the most according to claim 1, it is characterised in that described relay drive circuit (6) includes resistance R1, R2 and triode Q；The emitter stage of Q is connected to positive source, and the base stage of Q is connected to micro controller module (1) by R1；The base stage of Q is connected with each other by R2 with colelctor electrode；The colelctor electrode of Q is additionally coupled to the 3V end of relay (9).

A kind of intelligent flower management system the most according to claim 5, it is characterised in that described relay (9) is also associated with peripheral circuit；Described peripheral circuit includes diode D1 and binding post P；The AC end of relay (9) is connected to the port 1 of binding post P, port 2 ground connection of P；The port 1 of binding post P and port 2 connect the two ends of water pump (8) simultaneously；D1 in parallel between the 3V end of relay (9) and D end, D1 positive pole is additionally coupled to the colelctor electrode of Q.

A kind of intelligent flower management system the most according to claim 5, it is characterised in that described relay (9) uses HK4100F model relay；Described resistance R1 resistance is 1K Ω；Described resistance R2 resistance is 4.7K Ω.

A kind of intelligent flower management system the most according to claim 1, it is characterized in that, also include that mu balanced circuit (7), described mu balanced circuit (7) electrically connect with described micro controller module (1), Temperature Humidity Sensor (2), optical sensor (3), WiFi transport module (4) and relay drive circuit (6)；Described mu balanced circuit (7) includes voltage stabilizing chip AVR, potentiometer RP, resistance R3, R4, R5, electric capacity C1, C2, C3, diode D2 and inductance L；The Vin end of AVR connects VCC voltage input end, one end of R4 and one end of C2；The R4 other end is connected with one end of R5, the other end ground connection of R5；C2 other end ground connection；The ON/OFF end of AVR and GND end ground connection；The Vo end of AVR connects one end and D2 negative pole, the D2 plus earth of L；The L other end connects 3V3 mu balanced circuit voltage output end and one end of C3, C3 other end ground connection；The FB end of AVR is connected to one end of R3, RP and C1 respectively；R3 other end ground connection, the other end of RP and C1 is connected to mu balanced circuit voltage output end 3V3.

A kind of intelligent flower management system the most according to claim 8, it is characterised in that described voltage stabilizing chip AVR uses LM2596s model adjuster.

A kind of intelligent flower management system the most according to claim 8, it is characterised in that the resistance of described resistance R3 is 1K Ω；The resistance of described resistance R4 is 15K Ω；The resistance of described resistance R5 is 5K Ω；Described electric capacity C1 is the polarity free capacitor of 0.1uF；Described electric capacity C2 is the polarized electric capacity of 100uF, and C2 positive pole is connected to the voltage input end of regulator AVR, other end ground connection；Described electric capacity C3 is the polarized electric capacity of 220uF, and described electric capacity C3 positive pole is connected to inductance, other end ground connection；Described potentiometer RP is adjustable 10K potentiometer；The inductance value of described inductance L is 47UH.