CN105243546A - Agricultural product inquiring and tracing system based on Internet of things - Google Patents

Abstract

The invention provides a technical scheme for an agricultural product inquiring and tracing system based on Internet of things. The system comprises a sensor and a camera, wherein the sensor and the camera are respectively connected with a center server via a wireless network; the center server is connected with a WEB server; and the WEB server is connected with an inquiring client via an internet network. The system also comprises a light supplementary control device. Environmental information such as temperature and humidity for growth of agricultural products can be timely recorded, the growth information can be recorded, inquiring by a consumer through the inquiring client is facilitated, and tracing effectiveness can be ensured.

Description

A kind of inquiry of the agricultural product based on Internet of Things traceability system

Technical field

What the present invention relates to is agricultural product inquiry trace field, the especially a kind of inquiry of the agricultural product based on Internet of Things traceability system.

Background technology

In the prior art, known technology is the raising along with people's quality of life, food security is also more and more paid attention to, it is vegetables fruits and vegetables etc. especially, be at present all go to observe whether safety by human eye for vegetables fruits and vegetables etc., or carry out the inspection of medicament residue, but cannot know whether these agricultural product are in a safe and reliable environment in growth course like this, cycle of its growth is how this is the weak point existing for prior art.

Summary of the invention

Object of the present invention is exactly for the deficiency existing for prior art, and provide a kind of agricultural product based on Internet of Things to inquire about the technical scheme of traceability system, the system of the program can record the environmental informations such as the humiture of crop growth timely, growth information can also be recorded, be convenient to consumer inquired about by inquiring client terminal, ensure that the validity of reviewing.

This programme is achieved by the following technical measures: a kind of inquiry of the agricultural product based on Internet of Things traceability system, comprise sensor, camera, the feature of this programme is: described sensor is connected with central server respectively by wireless network with camera, described central server is connected with WEB server, WEB server is led to internet and is connected with inquiring client terminal, in addition, illumination replenishment control device is also had.

Described wireless network is GPRS Wi-Fi or zigbee wireless network or wifi wireless network.

Described sensor comprises soil temperature sensor, soil humidity sensor, intensity of illumination sensor, wind speed wind direction sensor, P in soil H value sensor, rain sensor.

The bottom of described rain sensor is provided with support, and support is set with downward opening cone-shaped shield.

Described illumination replenishment control device comprises light compensating lamp, described light compensating lamp is connected with a thyristor SCR, thyristor SCR is serially connected in the output terminal of a rectification circuit, in parallel with described thyristor SCR after having the first resistance R1 to connect with electrochemical capacitor C1, there is a stabilivolt VS in parallel with described electrochemical capacitor C1, the positive pole of electrochemical capacitor C1 is by the second resistance R2, second electric capacity C2 is connected with the base stage of first triode VT1, the negative pole of electrochemical capacitor is by the first photoresistance RG1, second electric capacity C1 is connected with the base stage of first triode VT1, the collector of first triode VT1 is connected with the positive pole of electrochemical capacitor C1 by the 4th resistance R4, the emitter of first triode VT1 is connected with the negative pole of electrochemical capacitor C1, the base stage of first triode VT1 is by the 3rd resistance R3, 5th resistance R5, 3rd electric capacity C3, 6th resistance R6, 7th resistance R7 is connected with the base stage of second triode VT2, the base stage of second triode VT2 is by the 7th resistance R7, second photoresistance RG2 is connected with the negative pole of electrochemical capacitor C1, the collector of second triode VT2 is connected with the positive pole of electrochemical capacitor C1 by the 9th resistance R9, the base stage of second triode VT2 is connected with the emitter of second triode VT2 by the 12 resistance R12, the emitter of second triode VT2 is connected with the negative pole of electrochemical capacitor C1, the collector of second triode VT2 is connected with the base stage of the 3rd triode VT3, the collector of the 3rd triode VT3 is connected with the positive pole of electrochemical capacitor C1, the emitter of the 3rd triode VT3 is connected with the negative pole of electrochemical capacitor C1 by the tenth resistance R10, there is the 4th electric capacity C4 in parallel with the tenth described resistance R10, the emitter of the 3rd triode VT3 is connected with the gate pole G of thyristor SCR by the 11 resistance R11.

Described light compensating lamp is LED.

Described inquiring client terminal is mobile phone or computing machine.

Described sensor is connected with wireless receiver respectively with camera, and wireless receiver is connected with central server by switch.

The beneficial effect of this programme can be learnt according to describing of such scheme, due to the relevant information having sensor can obtain crop growth environment timely in this scenario, camera can take the information of crop growth, and the information of pouring, fertilising etc. can be photographed, central server can store these information, and people can inquire these information by inquiring client terminal; There is illumination replenishment control device to crops supplementary light, the growth of crops can be promoted; Daytime, light was irradiated to photoresistance listing, and photoresistance resistance is little, and triode all ends, thyristor not conducting, and light compensating lamp does not work; Time in night or dark, the resistance of two photoresistance all increases, now first triode ON, electric current is just had to flow through in C3, then R6 and R12 makes the base potential of second triode raise, second triode ON, the 3rd triode also conducting, C4 is charged, the anodic potentials of C4 raises, when being elevated to a certain degree, and turn on thyristors, light compensating lamp is luminous, carries out light filling to crops.Have support to may be used for fixing rain sensor in the below of rain sensor, the periphery of support is provided with taper protective cover, and when preventing from like this using, rain sensor is toppled over, and when rainfall can also be avoided excessive, splashes; As can be seen here, compared with prior art, have outstanding substantive distinguishing features and significant progress, its beneficial effect implemented also is apparent in the present invention.

Accompanying drawing explanation

Fig. 1 is the structural representation of the specific embodiment of the invention.

Fig. 2 is the structural representation of rain sensor.

Fig. 3 is the circuit diagram of illumination replenishment control device.

In figure, 1 is rain sensor, and 2 is cone-shaped shield, and 3 is support.

Embodiment

For the technical characterstic of this programme can be clearly demonstrated, below by an embodiment, and in conjunction with its accompanying drawing, this programme is set forth.

Can be found out by accompanying drawing, agricultural product based on the Internet of Things inquiry traceability system of this programme, comprise sensor, camera, described sensor is connected with central server respectively by wireless network with camera, described central server is connected with WEB server, WEB server is led to internet and is connected with inquiring client terminal, in addition, also has illumination replenishment control device.Described wireless network is GPRS Wi-Fi or zigbee wireless network or wifi wireless network.Described sensor comprises soil temperature sensor, soil humidity sensor, intensity of illumination sensor, wind speed wind direction sensor, P in soil H value sensor, rain sensor.The bottom of described rain sensor 1 is provided with support 3, and support 3 is set with downward opening cone-shaped shield 2.Described inquiring client terminal is mobile phone or computing machine.Described sensor is connected with wireless receiver respectively with camera, and wireless receiver is connected with central server by switch.

Described illumination replenishment control device comprises light compensating lamp L, described light compensating lamp L connects with a thyristor SCR, thyristor SCR is serially connected in the output terminal of a rectification circuit, in parallel with described thyristor SCR after having the first resistance R1 to connect with electrochemical capacitor C1, there is a stabilivolt VS in parallel with described electrochemical capacitor C1, the positive pole of electrochemical capacitor C1 is by the second resistance R2, second electric capacity C2 is connected with the base stage of first triode VT1, the negative pole of electrochemical capacitor is by the first photoresistance RG1, second electric capacity C1 is connected with the base stage of first triode VT1, the collector of first triode VT1 is connected with the positive pole of electrochemical capacitor C1 by the 4th resistance R4, the emitter of first triode VT1 is connected with the negative pole of electrochemical capacitor C1, the base stage of first triode VT1 is by the 3rd resistance R3, 5th resistance R5, 3rd electric capacity C3, 6th resistance R6, 7th resistance R7 is connected with the base stage of second triode VT2, the base stage of second triode VT2 is by the 7th resistance R7, second photoresistance RG2 is connected with the negative pole of electrochemical capacitor C1, the collector of second triode VT2 is connected with the positive pole of electrochemical capacitor C1 by the 9th resistance R9, the base stage of second triode VT2 is connected with the emitter of second triode VT2 by the 12 resistance R12, the emitter of second triode VT2 is connected with the negative pole of electrochemical capacitor C1, the collector of second triode VT2 is connected with the base stage of the 3rd triode VT3, the collector of the 3rd triode VT3 is connected with the positive pole of electrochemical capacitor C1, the emitter of the 3rd triode VT3 is connected with the negative pole of electrochemical capacitor C1 by the tenth resistance R10, there is the 4th electric capacity C4 in parallel with the tenth described resistance R10, the emitter of the 3rd triode VT3 is connected with the gate pole G of thyristor SCR by the 11 resistance R11.Described light compensating lamp L is LED.

The present invention is not limited in above-mentioned embodiment, the change that those of ordinary skill in the art make in essential scope of the present invention, remodeling, interpolation or replacement, also should belong to protection scope of the present invention.

Claims (8)

1. the inquiry of the agricultural product based on an Internet of Things traceability system, comprise sensor, camera, it is characterized in that: described sensor is connected with central server respectively by wireless network with camera, described central server is connected with WEB server, WEB server is led to internet and is connected with inquiring client terminal, in addition, illumination replenishment control device is also had.

2. agricultural product based on Internet of Things according to claim 1 inquiry traceability system, is characterized in that: described wireless network is GPRS Wi-Fi or zigbee wireless network or wifi wireless network.

3. the inquiry of the agricultural product based on Internet of Things traceability system according to claim 1 and 2, it is characterized in that: described sensor comprises soil temperature sensor, soil humidity sensor, intensity of illumination sensor, wind speed wind direction sensor, P in soil H value sensor, rain sensor.

4. the inquiry of the agricultural product based on Internet of Things traceability system according to claim 3, is characterized in that: the bottom of described rain sensor is provided with support, support is set with downward opening cone-shaped shield.

5. the inquiry of the agricultural product based on Internet of Things traceability system according to claim 1, it is characterized in that: described illumination replenishment control device comprises light compensating lamp L, described light compensating lamp L connects with a thyristor SCR, thyristor SCR is serially connected in the output terminal of a rectification circuit, in parallel with described thyristor SCR after having the first resistance R1 to connect with electrochemical capacitor C1, there is a stabilivolt VS in parallel with described electrochemical capacitor C1, the positive pole of electrochemical capacitor C1 is by the second resistance R2, second electric capacity C2 is connected with the base stage of first triode VT1, the negative pole of electrochemical capacitor is by the first photoresistance RG1, second electric capacity C1 is connected with the base stage of first triode VT1, the collector of first triode VT1 is connected with the positive pole of electrochemical capacitor C1 by the 4th resistance R4, the emitter of first triode VT1 is connected with the negative pole of electrochemical capacitor C1, the base stage of first triode VT1 is by the 3rd resistance R3, 5th resistance R5, 3rd electric capacity C3, 6th resistance R6, 7th resistance R7 is connected with the base stage of second triode VT2, the base stage of second triode VT2 is by the 7th resistance R7, second photoresistance RG2 is connected with the negative pole of electrochemical capacitor C1, the collector of second triode VT2 is connected with the positive pole of electrochemical capacitor C1 by the 9th resistance R9, the base stage of second triode VT2 is connected with the emitter of second triode VT2 by the 12 resistance R12, the emitter of second triode VT2 is connected with the negative pole of electrochemical capacitor C1, the collector of second triode VT2 is connected with the base stage of the 3rd triode VT3, the collector of the 3rd triode VT3 is connected with the positive pole of electrochemical capacitor C1, the emitter of the 3rd triode VT3 is connected with the negative pole of electrochemical capacitor C1 by the tenth resistance R10, there is the 4th electric capacity C4 in parallel with the tenth described resistance R10, the emitter of the 3rd triode VT3 is connected with the gate pole G of thyristor SCR by the 11 resistance R11.

6. the inquiry of the agricultural product based on Internet of Things traceability system according to claim 5, is characterized in that: described light compensating lamp L is LED.

7. the inquiry of the agricultural product based on Internet of Things traceability system according to claim 1, is characterized in that: described inquiring client terminal is mobile phone or computing machine.

8. the inquiry of the agricultural product based on Internet of Things traceability system according to claim 1, is characterized in that: described sensor is connected with wireless receiver respectively with camera, and wireless receiver is connected with central server by switch.