CN206627796U - Flowerpot intelligent monitoring device - Google Patents

Abstract

The utility model discloses a kind of flowerpot intelligent monitoring device, is related to plant environment monitoring device technical field.Described device includes control module, camera module, Temperature and Humidity circuit, light intensity detection circuit, LED control circuit, WIFI module, cistern water level detection circuit and soil moisture detection circuit.The monitoring device can monitor the moisture information of soil in the flowerpot, the humiture information of flowerpot local environment and the image information of Lighting information and plant in real time, and according to the information monitored in real time, control water pump to be watered into flowerpot and control the LED control circuit to carry out light filling for the plant, plant can carry out manpower-free's cultivation according to set growing environment configuration.

Description

Flowerpot intelligent monitoring device

Technical field

It the utility model is related to plant environment monitoring device technical field, more particularly to a kind of flowerpot intelligent monitoring device.

Background technology

In the intelligence plantation culture of prior art, in order to more convenient, more science more intelligently, largely passes through Sensor detection planting environment (such as temperature, relative humidity, soil moisture, intensity of illumination), then carried out further according to planting environment The closed loop regulation of manpower-free.But people in the prior art, is planted if it is desired to field observation plant must be arrived by understanding plant plantation situation Growing state, if plantation is of large quantities and growth situation needs not timing to detect, generally requires substantial amounts of manpower and go to support.And this Kind of intelligence plantation is most of towards larger plantation, and as some small-sized potted plant growths slowly fail to realize intelligence Change.In addition, different plant strain growth environments is different, common intelligence plantation can not adaptively change different plants growth ring Border, need manual adjustment.And common intelligence plantation does not have interactive function, typically just personal intelligent cultivation yet.

Utility model content

Technical problem to be solved in the utility model, which is to provide one kind, can monitor planting environment data and real-time in real time Obtain plant image and the flowerpot intelligent monitoring device with interactive function.

In order to solve the above technical problems, technical solution adopted in the utility model is：A kind of flowerpot intelligent monitoring device, Including control module, camera module, Temperature and Humidity circuit, water pump control circuit, light intensity detection circuit, LED control circuit, WIFI module, cistern water level detection circuit and soil moisture detection circuit, the camera module and the control module Signal input part connects, for carrying out IMAQ to the plant in flowerpot；The Temperature and Humidity circuit and the control mould The signal input part connection of block, for gathering the humiture information of flowerpot local environment；The light intensity detection circuit and the control The signal input part connection of molding block, for detecting the Lighting information of flowerpot local environment；The LED control circuit and the control The signal output part connection of molding block, the signal for receive and control module output is flowerpot light filling；The water pump control circuit It is connected with the signal output part of the control module, the control signal for receiving the control module output controls water pump to institute State in flowerpot and supply water；The WIFI module is bi-directionally connected with the control module, for receiving the control life of remote terminal transmission The various information for making and gathering described device are uploaded to the remote terminal；Cistern water level detects circuit and the control module Signal input part connection, for gathering the water level information provided for the flowerpot in the water tank at water source；Soil moisture detection electricity Road is connected with the signal input part of the control module, for detecting the moisture information of soil in the flowerpot；Power module with The power input connection of module powered is needed in described device, for providing working power for it.

Further technical scheme is：The control module include microprocessor, electrification reset circuit, crystal oscillator module with And interface module, the electrification reset circuit is connected with the signal input part of the microprocessor, for resetting described device； The crystal oscillator module is bi-directionally connected with the microprocessor, for providing work clock for the microprocessor；The interface mould Block is bi-directionally connected with the microprocessor, for providing the connecting interface of the monitoring device and miscellaneous equipment.

Further technical scheme is：Described device also includes human-computer interaction module, the human-computer interaction module and institute State microprocessor to be bi-directionally connected, for inputting the data of control command and display output.

Further technical scheme is：The microprocessor uses STM32 series microprocessors.

Further technical scheme is：The soil moisture detection circuit uses NE555 including chip U6, the U6, The signal output part of Soil K+adsorption sensor is divided into two-way, and the first via is connected with 7 pin of the U6, and the second tunnel is successively through resistance It is grounded after R28, electric capacity C19,2 pin of the U6 and 6 pin connecting resistance R28 and electric capacity C19 node；The 1 pin ground connection of the U6；Institute 4 pin and 8 pin for stating U6 meet power supply VCC；The 5 foot meridian capacitor C18 ground connection of the U6；3 pin of the U6 are the soil water go-on-go The signal output part of slowdown monitoring circuit, it is connected with the respective pins of the control module.

Further technical scheme is：The LED control circuit includes photosensitive resistance chip U5, the LED controls electricity The input of the power supply on road is divided into five tunnels, and first to fourth tunnel is grounded through electric capacity C17, C18, C19 and C20 respectively, the 5th tunnel It is connected with 5 pin of the U5；3 pin of the U5 are the signal input part of the LED control circuit, and the 2 pin ground connection of the U5 is electric Resistance R40 one end is connected with 2 pin of the U5, and the other end of the resistance R40 is connected with 3 pin of the U5；The pole of Schottky two Pipe D5 negative pole is connected with 5 pin of the U5, and the positive pole of the D5 is divided into two-way, and the first via is connected with 1 pin of the U5, and second Road is connected through inductance L2 with light emitting diode D6-D8 negative pole；Resistance R39 one end is connected with 5 pin of the U5, resistance R39 The other end be divided into two-way, the first via is connected with 4 pin of the U5, and the second tunnel is connected with light emitting diode D6-D8 positive pole.

Further technical scheme is：The WIFI module uses USR-C322 type WIFI chips.

Further technical scheme is：Cistern water level detection circuit includes three water level sensing units and a water level passes Sensor J3, the first water level sensing unit include resistance R3, resistance R3 one end and level sensor J3 the first sensing water level letter The connection of number output end, the resistance R3 other end are divided into two-way, and the first via is grounded through resistance R6, the second tunnel and triode Q1 base stage Connection, triode Q1 grounded emitter, triode Q1 colelctor electrode connect 3.3V power supplys, the resistance R7 and three poles through resistance R7 The node of pipe Q1 colelctor electrodes is the first water level signal output end that the cistern water level detects circuit；First water level sensing unit bag Resistance R4 is included, resistance R4 one end is connected with level sensor J3 the second sensing water level signal output end, and resistance R4's is another End is divided into two-way, and the first via is grounded through resistance R8, and the second tunnel is connected with triode Q2 base stage, and triode Q2 emitter stage connects Ground, triode Q2 colelctor electrode connect 3.3V power supplys through resistance R9, and the resistance R9 and the node of triode Q2 colelctor electrodes are described Cistern water level detects the second water level signal output end of circuit；3rd water level sensing unit includes resistance R5, resistance R5 one end It is connected with level sensor J3 the 3rd sensing water level signal output end, the resistance R5 other end is divided into two-way, and the first via is through electricity R10 ground connection is hindered, the second tunnel is connected with triode Q3 base stage, triode Q3 grounded emitter, triode Q3 colelctor electrode warp Resistance R11 connects 3.3V power supplys, and the node of the resistance R11 and triode Q3 colelctor electrodes detects the of circuit for the cistern water level Three water level signal output ends；The corresponding signal input of described first to the 3rd water level signal output end and control module connects.

Further technical scheme is：The power module uses LM22678, institute including power supply chip U8, the U8 The power input for stating power module is divided into three tunnels after diode D4, and the first via is grounded through electric capacity C26, and the second tunnel is through electric capacity C30 is grounded, and the 3rd tunnel is connected with 7 pin of the U8；2,3,5 pin of the U8 are hanging；The 6 pin ground connection of the U8；The 8 of the U8 Pin is divided into three tunnels, and the first via is connected through electric capacity C31 with 1 pin of the U8, and the second tunnel is grounded through backward dioded D5, the 3rd road warp It is divided into three tunnels after inductance L1 again, the first via is grounded through electric capacity C27, and the second tunnel is grounded through electric capacity C29, and the 3rd tunnel is successively through resistance It is grounded after R26, resistance R27, the inductance L1 and resistance R26 node are the power output end of the power module, the U8 4 pin connecting resistance R26 and resistance R27 node.

It is using beneficial effect caused by above-mentioned technical proposal：The monitoring device can monitor the flowerpot in real time The moisture information of middle soil, the humiture information of flowerpot local environment and the image information of Lighting information and plant, and according to The information monitored in real time, control water pump to be watered into flowerpot and control the LED control circuit to carry out light filling for the plant, plant Strain can carry out manpower-free's cultivation according to set growing environment configuration.The information collected in real time is passed through clothes by the monitoring device Business device is transferred to intelligent terminal, and user can utilize mobile terminal to obtain the state for being monitored plant in real time, and can profit between user Mutually exchanged with intelligent terminal, effectively raise plantation efficiency and plantation enjoyment.User can also use intelligent terminal Monitoring device described in remote control acts, and realizes remote control, easy to use.

Brief description of the drawings

The utility model is described in further detail with reference to the accompanying drawings and detailed description.

Fig. 1 is the theory diagram of monitoring device described in the utility model embodiment；

Fig. 2 is the schematic diagram of soil moisture detection circuit in monitoring device described in the utility model embodiment；

Fig. 3 is the schematic diagram of LED control circuit in monitoring device described in the utility model embodiment；

Fig. 4 is the schematic diagram of WIFI module in monitoring device described in the utility model embodiment；

Fig. 5 is the schematic diagram of water tank water level detection circuit in monitoring device described in the utility model embodiment；

Fig. 6 is the schematic diagram of power module in monitoring device described in the utility model embodiment；

Fig. 7 is the schematic diagram of control module in monitoring device described in the utility model embodiment；

Fig. 8 is the theory diagram of monitoring system described in the utility model embodiment；

Fig. 9 is the flow chart of data acquisition and data transfer in monitoring system described in the utility model embodiment；

Figure 10 is application layer framework figure in monitoring system described in the utility model embodiment；

Figure 11 is server design system block diagram in monitoring system described in the utility model embodiment.

Embodiment

With reference to the accompanying drawing in the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out clear Chu, it is fully described by, it is clear that described embodiment is only part of the embodiment of the present utility model, rather than whole Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not under the premise of creative work is made The every other embodiment obtained, belong to the scope of the utility model protection.

Many details are elaborated in the following description in order to fully understand the utility model, but this practicality is new Type can also be different from other manner described here using other to be implemented, and those skilled in the art can be without prejudice to this reality With doing similar popularization in the case of new intension, therefore the utility model is not limited by following public specific embodiment.

As shown in figure 1, the utility model embodiment discloses a kind of flowerpot intelligent monitoring device, including control module, take the photograph As head module, Temperature and Humidity circuit, water pump control circuit, light intensity detection circuit, LED control circuit, WIFI module, Water in Water Tank Position detection circuit and soil moisture detection circuit.The camera module is connected with the signal input part of the control module, For carrying out IMAQ to the plant in flowerpot；The Temperature and Humidity circuit and the signal input part of the control module connect Connect, for gathering the humiture information of flowerpot local environment；The light intensity detection circuit and the signal of the control module input End connection, for detecting the Lighting information of flowerpot local environment；The signal output of the LED control circuit and the control module End connection, the signal for receive and control module output is flowerpot light filling；The water pump control circuit and the control module Signal output part connects, and the control signal control water pump for receiving the control module output supplies water into the flowerpot；Institute State WIFI module to be bi-directionally connected with the control module, for receiving the control command of remote terminal transmission and adopting described device The various information of collection are uploaded to the remote terminal；Cistern water level detects circuit and the signal input part of the control module connects Connect, for gathering the water level information provided for the flowerpot in the water tank at water source；Soil moisture detection circuit and the control mould The signal input part connection of block, for detecting the moisture information of soil in the flowerpot；Power module in described device with needing The power input connection of the module of power supply, for providing working power for it.

Further, as shown in figure 1, the control module include microprocessor, electrification reset circuit, crystal oscillator module and Interface module.The electrification reset circuit is connected with the signal input part of the microprocessor, for resetting described device；Institute State crystal oscillator module to be bi-directionally connected with the microprocessor, for providing work clock for the microprocessor；The interface module It is bi-directionally connected with the microprocessor, for providing the connecting interface of the monitoring device and miscellaneous equipment.

Further, for convenience can realize the data for inputting control command and display output on the spot, described device Also include human-computer interaction module.The human-computer interaction module is bi-directionally connected with the microprocessor, for inputting control command simultaneously The data of display output.At least two kinds of the concrete form of the human-computer interaction module, the first is the keyboard mould being separately provided Block and display module, second is touch display screen.

As shown in Fig. 2 the soil moisture detection circuit, which includes chip U6, the U6, uses NE555, Soil K+adsorption sensing The signal output part of device is divided into two-way, and the first via is connected with 7 pin of the U6, and the second tunnel is successively after resistance R28, electric capacity C19 Ground connection, 2 pin of the U6 and 6 pin connecting resistance R28 and electric capacity C19 node；The 1 pin ground connection of the U6；4 pin of the U6 and 8 Pin meets power supply VCC；The 5 foot meridian capacitor C18 ground connection of the U6；3 pin of the U6 are the signal of the soil moisture detection circuit Output end, it is connected with the respective pins of the control module.

Two probes of Soil K+adsorption sensor configuration, during monitoring, in two probes insertion soil, due to the mud between two probes Soil has different resistances in different humidity, and soil equivalent resistance and the electric capacity C19 in circuit constitute RC loops, and with NE555 constitutes complete oscillating circuit, simultaneously as NE555 output signal is data signal, equivalent to vibrate RC Waveform shaping is pulse signal, is convenient to be connected with measuring circuit frequency of oscillation with numerical control system, reaches measurement moisture Purpose.

As shown in figure 3, the LED control circuit includes photosensitive resistance chip U5, the power supply of the LED control circuit it is defeated Enter end and be divided into five tunnels, first to fourth tunnel is grounded through electric capacity C17, C18, C19 and C20 respectively, the 5th tunnel and 5 pin of the U5 Connection；3 pin of the U5 be the LED control circuit signal input part, the U5 2 pin ground connection, resistance R40 one end with The 2 pin connection of the U5, the other end of the resistance R40 are connected with 3 pin of the U5；Schottky diode D5 negative pole and institute U5 5 pin connection is stated, the positive pole of the D5 is divided into two-way, and the first via is connected with 1 pin of the U5, and the second tunnel is through inductance L2 and hair Optical diode D6-D8 negative pole connection；Resistance R39 one end is connected with 5 pin of the U5, and the resistance R39 other end is divided into two Road, the first via are connected with 4 pin of the U5, and the second tunnel is connected with light emitting diode D6-D8 positive pole.

It has been investigated that the light that photosynthesis of plant needs, wavelength is in 400~720nm or so.440~480nm is (blue Color) light and 640~680nm (red) contributed for photosynthesis it is maximum.520~610nm (green) light, is planted The ratio of thing pigment absorption is very low.

According to principles above, the light compensating lamp wavelength that LED control circuit uses is blue light 1W2 two, in vain for 450~460nm Light 1W mono- (for D6-D8).And in the design of light detection, system employs the photo resistance of PT550 series.PT550 is contrasted Traditional CDS photo resistance has the following advantages：Without cadmium, lead harmful substance, meet European Union's ROHS standards, suitable for all kinds of illumination Illuminating product：Such as mini light night, Lawn lamp etc., and quiescent current is small, fast response time, stable performance.Measurement range be 400~ 1100nm。

As shown in Figure 4, it is preferred that the WIFI module uses USR-C322 type WIFI chips to make described as master chip Device, which has, to be wirelessly transferred and receive capabilities.

As shown in figure 5, cistern water level detection circuit includes three water level sensing units and a level sensor J3, first Water level sensing unit includes resistance R3, and resistance R3 one end connects with level sensor J3 the first sensing water level signal output end Connect, the resistance R3 other end is divided into two-way, and the first via is grounded through resistance R6, and the second tunnel is connected with triode Q1 base stage, three poles Pipe Q1 grounded emitter, triode Q1 colelctor electrode connect 3.3V power supplys, the resistance R7 and triode Q1 current collections through resistance R7 The node of pole is the first water level signal output end that the cistern water level detects circuit；First water level sensing unit includes resistance R4, resistance R4 one end are connected with level sensor J3 the second sensing water level signal output end, and the resistance R4 other end is divided into Two-way, the first via are grounded through resistance R8, and the second tunnel is connected with triode Q2 base stage, triode Q2 grounded emitter, three poles Pipe Q2 colelctor electrode connects 3.3V power supplys through resistance R9, and the resistance R9 and the node of triode Q2 colelctor electrodes are the cistern water level Detect the second water level signal output end of circuit；3rd water level sensing unit includes resistance R5, and resistance R5 one end and water level pass Sensor J3 the 3rd sensing water level signal output end connection, the resistance R5 other end are divided into two-way, and the first via connects through resistance R10 Ground, the second tunnel are connected with triode Q3 base stage, triode Q3 grounded emitter, and triode Q3 colelctor electrode is through resistance R11 Connect 3.3V power supplys, the node of the resistance R11 and triode Q3 colelctor electrodes detects the 3rd water level of circuit for the cistern water level Signal output part；The corresponding signal input of described first to the 3rd water level signal output end and control module connects.

As shown in fig. 6, the power module uses LM22678 including power supply chip U8, the U8, the power module Power input is divided into three tunnels after diode D4, and the first via is grounded through electric capacity C26, and the second tunnel is grounded through electric capacity C30, the 3rd tunnel It is connected with 7 pin of the U8；2,3,5 pin of the U8 are hanging；The 6 pin ground connection of the U8；8 pin of the U8 are divided into three tunnels, the It is connected all the way through electric capacity C31 with 1 pin of the U8, the second tunnel is grounded through backward dioded D5, and the 3rd tunnel is divided again after inductance L1 For three tunnels, the first via is grounded through electric capacity C27, and the second tunnel is grounded through electric capacity C29, and the 3rd tunnel is successively after resistance R26, resistance R27 Ground connection, the inductance L1 and resistance R26 node are the power output end of the power module, the 4 pin connecting resistance R26 of the U8 With resistance R27 node.

Preferably, as shown in fig. 7, the microprocessor using STM32 series microprocessors, it is necessary to explanation, it is described Microprocessor can also use other types of microprocessor in device, as long as the corresponding control function of the application can be realized i.e. Can.

As shown in figure 8, the invention also discloses a kind of flowerpot intelligent monitor system, including the monitoring described in several Device, in addition to server and intelligent terminal.Entered between the monitoring device and the server by wired or wireless network Row is bi-directionally connected, and the intelligent terminal is bi-directionally connected by wireless network and the server, the monitoring device collection Information give the intelligent terminal by the server transport, the control command that intelligent terminal passes down passes through under the server The monitoring device is transmitted to, the flowerpot monitored is controlled by the monitoring device.

The main work of the bottom of the system is the shooting of the detection and plant growth condition to plant strain growth environment, Hardware system setting time sends related data packets by wifi to server.Simultaneity factor is in listening state, monitors service The instruction that device is sent, related task is completed according to instruction.Fig. 9 is that data are adopted in monitoring system described in the utility model embodiment The flow chart of collection and data transfer.

It is divided into three parts in application layer：The acquisition of environmental information shows that the operation of monitoring device hardware device, intelligence is eventually End interaction.The acquisition of environmental information, intelligent terminal timing send request to server and updated the data, and realize the real-time of data. The operation of hardware device, user can carry out environment according to the optimum growh ambient parameter of current environmental aspect and combination plant Regulation.Intelligent terminal interactive, the true version QQ farms of system simulation, plant growth condition can be mutually checked between user, and helped Other users carry out plant auxiliary cultivation.Application layer system framework is as shown in Figure 10.

The design of server：In order to solve intelligent terminal compatibility issue, the system uses B/S architectural framework, intelligence Energy flowerpot web server is made up of two classes, including webserver and webserverhandler, the two classes are that have Thread classes derive from, and start webserver () method and create monitoring server, call accept () method to wait client HTTP request connection, when there is client connection, webserver classes produce a webserverhandle come handle request. System block diagram is as shown in figure 11.

The monitoring device can monitor the moisture information of soil in the flowerpot, the humiture of flowerpot local environment in real time Information and Lighting information and the image information of plant, and watered simultaneously into flowerpot according to the information monitored in real time, control water pump The LED control circuit is controlled to carry out light filling for the plant, plant can carry out manpower-free according to set growing environment configuration Cultivate.The information collected in real time can be utilized mobile whole by the monitoring device by server transport to intelligent terminal, user End obtains the state of monitored plant in real time, and can mutually be exchanged using intelligent terminal between user, effectively raises Plantation efficiency and plantation enjoyment.User can also use monitoring device described in intelligent terminal remote control to act, and realize long-range control System, it is easy to use.

Claims (9)

1. A kind of 1. flowerpot intelligent monitoring device, it is characterised in that：Including control module, camera module, Temperature and Humidity circuit, Water pump control circuit, light intensity detection circuit, LED control circuit, WIFI module, cistern water level detection circuit and soil water go-on-go Slowdown monitoring circuit, the camera module are connected with the signal input part of the control module, for carrying out figure to the plant in flowerpot As collection；The Temperature and Humidity circuit is connected with the signal input part of the control module, for gathering flowerpot local environment Humiture information；The light intensity detection circuit is connected with the signal input part of the control module, for detecting residing for flowerpot The Lighting information of environment；The LED control circuit is connected with the signal output part of the control module, for receive and control module The signal of output is flowerpot light filling；The water pump control circuit is connected with the signal output part of the control module, for receiving The control signal control water pump of the control module output supplies water into the flowerpot；The WIFI module and the control module It is bi-directionally connected, the various information for receiving the control command of remote terminal transmission and gathering described device are uploaded to described remote Journey terminal；Cistern water level detection circuit is connected with the signal input part of the control module, is provided for gathering for the flowerpot Water level information in the water tank at water source；Soil moisture detection circuit is connected with the signal input part of the control module, for examining Survey the moisture information of soil in the flowerpot；The power input of module of the power module with needing to power in described device connects Connect, for providing working power for it.
2. 2. flowerpot intelligent monitoring device as claimed in claim 1, it is characterised in that：The control module include microprocessor, Electrification reset circuit, crystal oscillator module and interface module, the electrification reset circuit and the signal input part of the microprocessor Connection, for resetting described device；The crystal oscillator module is bi-directionally connected with the microprocessor, for for the microprocessor Work clock is provided；The interface module is bi-directionally connected with the microprocessor, is set for providing the monitoring device with other Standby connecting interface.
3. 3. flowerpot intelligent monitoring device as claimed in claim 2, it is characterised in that：Described device also includes man-machine interaction mould Block, the human-computer interaction module are bi-directionally connected with the microprocessor, for inputting the data of control command and display output.
4. 4. flowerpot intelligent monitoring device as claimed in claim 2, it is characterised in that：The microprocessor uses STM32 series Microprocessor.
5. 5. flowerpot intelligent monitoring device as claimed in claim 1, it is characterised in that：The soil moisture detection circuit includes core Piece U6, the U6 use NE555, and the signal output part of Soil K+adsorption sensor is divided into two-way, and the first via and 7 pin of the U6 connect Connect, the second tunnel is grounded after resistance R28, electric capacity C19 successively, 2 pin of the U6 and 6 pin connecting resistance R28 and electric capacity C19 knot Point；The 1 pin ground connection of the U6；4 pin and 8 pin of the U6 meet power supply VCC；The 5 foot meridian capacitor C18 ground connection of the U6；The U6 3 pin be the soil moisture detection circuit signal output part, be connected with the respective pins of the control module.
6. 6. flowerpot intelligent monitoring device as claimed in claim 1, it is characterised in that：The LED control circuit includes photosensitive electricity Hinder chip U5, the input of the power supply of the LED control circuit is divided into five tunnels, first to fourth tunnel respectively through electric capacity C17, C18, C19 and C20 ground connection, the 5th tunnel is connected with 5 pin of the U5；3 pin of the U5 input for the signal of the LED control circuit End, the 2 pin ground connection of the U5, resistance R40 one end are connected with 2 pin of the U5, the other end and the U5 of the resistance R40 3 pin connection；Schottky diode D5 negative pole is connected with 5 pin of the U5, and the positive pole of the D5 is divided into two-way, the first via with The 1 pin connection of the U5, the second tunnel is connected through inductance L2 with light emitting diode D6-D8 negative pole；Resistance R39 one end with it is described U5 5 pin connection, the resistance R39 other end are divided into two-way, and the first via is connected with 4 pin of the U5, the second tunnel and light-emitting diodes Pipe D6-D8 positive pole connection.
7. 7. flowerpot intelligent monitoring device as claimed in claim 1, it is characterised in that：The WIFI module uses USR-C322 types WIFI chips.
8. 8. flowerpot intelligent monitoring device as claimed in claim 1, it is characterised in that：Cistern water level detection circuit includes three water Position detection unit and a level sensor J3, the first water level sensing unit include resistance R3, and resistance R3 one end and water level pass Sensor J3 the first sensing water level signal output end connection, the resistance R3 other end are divided into two-way, and the first via is grounded through resistance R6, Second tunnel is connected with triode Q1 base stage, triode Q1 grounded emitter, and triode Q1 colelctor electrode connects through resistance R7 The node of 3.3V power supplys, the resistance R7 and triode Q1 colelctor electrodes is the first water level signal that the cistern water level detects circuit Output end；First water level sensing unit includes resistance R4, resistance R4 one end and level sensor J3 the second sensing water level letter The connection of number output end, the resistance R4 other end are divided into two-way, and the first via is grounded through resistance R8, the second tunnel and triode Q2 base stage Connection, triode Q2 grounded emitter, triode Q2 colelctor electrode connect 3.3V power supplys, the resistance R9 and three poles through resistance R9 The node of pipe Q2 colelctor electrodes is the second water level signal output end that the cistern water level detects circuit；3rd water level sensing unit bag Resistance R5 is included, resistance R5 one end is connected with level sensor J3 the 3rd sensing water level signal output end, and resistance R5's is another End is divided into two-way, and the first via is grounded through resistance R10, and the second tunnel is connected with triode Q3 base stage, and triode Q3 emitter stage connects Ground, triode Q3 colelctor electrode connect 3.3V power supplys through resistance R11, and the resistance R11 and the node of triode Q3 colelctor electrodes are institute State the 3rd water level signal output end of cistern water level detection circuit；Described first to the 3rd water level signal output end and control module Corresponding signal input connection.
9. 9. flowerpot intelligent monitoring device as claimed in claim 1, it is characterised in that：The power module includes power supply chip U8, the U8 use LM22678, and the power input of the power module is divided into three tunnels after diode D4, and the first via is through electricity Hold C26 ground connection, the second tunnel is grounded through electric capacity C30, and the 3rd tunnel is connected with 7 pin of the U8；2,3,5 pin of the U8 are hanging；Institute State U8 6 pin ground connection；8 pin of the U8 are divided into three tunnels, and the first via is connected through electric capacity C31 with 1 pin of the U8, and the second tunnel is through anti- It is grounded to diode D5, the 3rd tunnel is divided into three tunnels again after inductance L1, and the first via is grounded through electric capacity C27, and the second tunnel is through electric capacity C29 Ground connection, the 3rd tunnel are grounded after resistance R26, resistance R27 successively, and the inductance L1 and resistance R26 node is the power supply mould The power output end of block, the 4 pin connecting resistance R26 and resistance R27 of the U8 node.