CN208126239U - A kind of Agroeconomic Management system based on Internet of Things - Google Patents

Abstract

The Agroeconomic Management system based on Internet of Things that the utility model discloses a kind of, including management terminal, front end data acquisition system, course management system, mobile platform, data processing centre and data storage center, data processing centre is communicated to connect by wireless network and front end data acquisition system and mobile platform, management terminal is separately connected with data processing centre and data storage center, data processing centre is connected with data storage center, and data processing centre is connected with course management system.The advantages of the utility model：Have many advantages, such as can voluntarily weeding, fertilising and irrigation, can voluntarily perceive the various indexes such as temperature and humidity, pH value in planting shed.

Description

A kind of Agroeconomic Management system based on Internet of Things

Technical field

The utility model relates to modern agriculture information system management technical field, in particular to a kind of agriculturals based on Internet of Things Economic management system.

Background technique

Wisdom agricultural is the specific manifestation of wisdom economy or wisdom economic form in agricultural in agricultural.Wisdom agricultural It is the important component part of wisdom economy；For developing country, wisdom agricultural is the main component part of wisdom economy, It is that developing country eradicates poverty, realizes that newcoming advantage, economic development catch up from behind, realize the main path for catching up with and surpassing strategy.Institute Meaning " wisdom agricultural " be exactly sufficiently integrate using modern information technologies achievement appliance computer and network technology, technology of Internet of things, Audio and video technology, 3S technology, wireless communication technique and expert's wisdom and knowledge realize agriculture visual remote diagnosis, long-range control The intelligent managements such as system, catastrophe early warning.

Existing agricultural management system all only has front end data acquisition system and irrigation system substantially, is unable to reach crops The intelligence of entire growth course, the operations such as weeding, fertilising are still to manually to complete, it is time-consuming and laborious and increase manually at This.

Utility model content

The utility model is above-mentioned various in order to solve the problems, such as, provide one kind can voluntarily weeding, fertilising and irrigation, can from The Agroeconomic Management system based on Internet of Things of the various indexes such as temperature and humidity, pH value in row perception planting shed.

In order to solve the above technical problems, technical solution provided by the utility model is：A kind of agricultural warp based on Internet of Things Help management system, including management terminal, front end data acquisition system, course management system, mobile platform, data processing centre and Data storage center, the data processing centre pass through wireless network and front end data acquisition system and mobile platform communication link It connects, the management terminal is separately connected with data processing centre and data storage center, the data processing centre and number It is connected according to storage center, the data processing centre is connected with course management system, the front end data acquisition system System include for detect the Temperature Humidity Sensor of temperature and humidity inside and outside soil, the acidity-basicity sensor for detecting soil acidity or alkalinity, The intensity of illumination sensor of intensity is illuminated by the light, for gas concentration lwevel in real-time detection planting shed for real-time detection crops Gas concentration lwevel sensor, the soil moisture sensor for detecting soil moisture and check agriculture for a wide range of and part The panoramic camera of crop growth conditions, the course management system include weeder, fertilizer apparatus and irrigation rig, institute Suspension arrangement is equipped with above weeder, fertilizer apparatus and the irrigation rig stated, the lower section of the suspension arrangement is equipped with The lower section of water tank, fertilizer box or stripe board, the water tank is equipped with several spray heads, and the lower section of the fertilizer box is equipped with Several fertilising pipes, the lower section of the stripe board are equipped with several hoes, and the top in planting shed is equipped with crossbeam, the cross Groove is equipped with above beam, the suspension arrangement is hung on crossbeam and moves in groove.

The utility model compared with prior art the advantages of be：When the utility model is used, front end data acquisition system The various indexs such as temperature and humidity in planting shed can be collected and pass through wireless network transmissions to Data processing by the setting of system The heart is analyzed and is handled, and the also controllable weeder of data processing centre, fertilizer apparatus and irrigation rig are acted, to determine Crops that period management is planted or it will do it movement also in the case where exception occur in all kinds of indexs to manage crops, it is time saving It is laborsaving and save cost of labor.

As an improvement, the suspension arrangement includes shell, the inner upper of the shell is equipped with motor, the electricity The transmission shaft of machine is equipped with bevel gear one, and set is equipped with axis on the shell, and the axis is equipped with bevel gear two, described The both ends set of axis is equipped with wheel, and the wheel is moved in groove, and the bevel gear one and bevel gear two are meshed, institute The lower inside for the shell stated be equipped with hydraulic device, the hydraulic device be equipped with distance rod, the distance rod it is another End is connected with the water tank, fertilizer box or stripe board, and the side of the shell is equipped with for controlling motor and hydraulic The controller of device, such design can make suspension arrangement voluntarily stretched under the control of the heart in data handling with it is mobile, save Shi Shengli and cost of labor is saved, while embodying the utility model automation and intelligentized feature.

As an improvement, the spray head for sprinkling one end it is in a circular table shape, such design can make irrigate more sufficiently and Uniformly.

As an improvement, 45 ° of end offset from perpendicular of the fertilising pipe, such design can make fertilizer impose on crops Rhizome at, the waste of fertilizer is avoided, while fertilizer also being made to be unlikely to be sprinkled upon on the leaf of crops, so that burning out farming Object.

As an improvement, the hoe is equipped with several through-holes, such design can make hoe only remove grass in weeding It goes, soil will be leaked out by through-hole.

Detailed description of the invention

Fig. 1 is a kind of system block diagram of the Agroeconomic Management system based on Internet of Things of the utility model.

Fig. 2 is that a kind of structure of the course management system of the Agroeconomic Management system based on Internet of Things of the utility model is shown It is intended to.

Fig. 3 is a kind of structural representation of the weeder of the Agroeconomic Management system based on Internet of Things of the utility model Figure.

Fig. 4 is that a kind of structure of the fertilizer apparatus device of the Agroeconomic Management system based on Internet of Things of the utility model is shown It is intended to.

Fig. 5 is a kind of structural representation of the irrigation rig of the Agroeconomic Management system based on Internet of Things of the utility model Figure.

As shown in the figure：1, management terminal；2, front end data acquisition system；3, course management system；4, mobile platform；5, it controls Device processed；6, data processing centre；7, data storage center；8, Temperature Humidity Sensor；9, acidity-basicity sensor；10, intensity of illumination Sensor；11, gas concentration lwevel sensor；12, panoramic camera；13, weeder；14, fertilizer apparatus；15, dress is irrigated It sets；16, suspension arrangement；17, water tank；18, fertilizer box；19, stripe board；20, spray head；21, fertilising pipe；22, hoe；23, horizontal Beam；24, groove；25, shell；26, motor；27, bevel gear one；28, axis；29, bevel gear two；30, wheel；31；Hydraulic device； 32, distance rod；33, soil moisture sensor；34, wireless network.

Specific embodiment

The following describes the utility model in further detail with reference to the accompanying drawings.

In conjunction with attached drawing 1 and attached drawing 2, a kind of Agroeconomic Management system based on Internet of Things, including management terminal 1, front end Data collection system 2, course management system 3, mobile platform 4, data processing centre 6 and data storage center 7, the data Processing center 6 is communicated to connect by wireless network 34 and front end data acquisition system 2 and mobile platform 4, the management terminal 1 It is separately connected with data processing centre 6 and data storage center 7, the data processing centre 6 is connected with data storage center 7 It connects, the data processing centre 6 is connected with course management system 3, and the front end data acquisition system 1 includes for examining Survey the Temperature Humidity Sensor 8, the acidity-basicity sensor 9 for detecting soil acidity or alkalinity of temperature and humidity inside and outside soil, for examining in real time It surveys crops and is illuminated by the light the intensity of illumination sensor 10 of intensity, for the titanium dioxide of gas concentration lwevel in real-time detection planting shed Concentration of carbon sensor 11, the soil moisture sensor 33 for detecting soil moisture and crops are checked for a wide range of and part The panoramic camera 12 of upgrowth situation, the course management system 3 include weeder 13, fertilizer apparatus 14 and irrigation rig 15, the top of the weeder 13, fertilizer apparatus 14 and irrigation rig 15 is equipped with suspension arrangement 16, the suspension dress The lower section for setting 16 is equipped with water tank 17, fertilizer box 18 or stripe board 19, and the lower section of the water tank 17 is equipped with several spray heads 20, the lower section of the fertilizer box 18 is equipped with several fertilising pipes 21, and the lower section of the stripe board 19 is equipped with several hoes 22, the top in planting shed is equipped with crossbeam 23, and the crossbeam 23 is equipped with groove 24 above, and the suspension arrangement 16 is hung on cross On beam 23 and move in groove 24.

In conjunction with attached drawing 3, attached drawing 4 and attached drawing 5, the suspension arrangement 16 includes shell 25, the inside of the shell 25 Top is equipped with motor 26, and the transmission shaft of the motor 26 is equipped with bevel gear 1, and set is equipped with axis on the shell 25 28, the axis 28 is equipped with bevel gear 2 29, and the both ends set of the axis 28 is equipped with wheel 30, and the wheel 30 moves In in groove 24, the bevel gear 1 and bevel gear 2 29 are meshed, and the lower inside of the shell 25 is equipped with hydraulic Device 31, the hydraulic device 31 are equipped with distance rod 32, the other end of the distance rod 32 and the water tank 17, Fertilizer box 18 or stripe board 19 are connected, and the side of the shell 25 is equipped with the control for controlling motor 26 and hydraulic device 31 Device 5 processed.

The one end of the spray head 20 for sprinkling is in a circular table shape.

45 ° of end offset from perpendicular of the fertilising pipe 21.

The hoe 22 is equipped with several through-holes.

Specific embodiment of the present utility model：When the utility model is used, can be right by leading portion data collection system 2 The entirety of temperature and humidity, pH value, intensity of illumination, gas concentration lwevel, soil moisture and crop growth in planting shed with Local circumstance carries out comprehensive acquisition and detection, and collected data are transferred to Data processing by wireless network 34 The heart 6 is analyzed and is handled and stored to data storage center 7, and data processing centre 6 can control weeder 13, fertilizer apparatus 14 and irrigation rig 15 to crops carry out weeding, fertilising and irrigate sequence of operations so that the growth of crops is in best shape The operating procedure of state, above series of will be recorded in data processing centre 6 and data storage center 7, can pass through mobile platform 4 Or management terminal 1 is checked at any time, it is ensured that the growth of crops is in optimum state.

The utility model and embodiments thereof are described above, this description is no restricted, shown in attached drawing Be also one of the embodiments of the present invention, actual structure is not limited to this.All in all if this field Those of ordinary skill is enlightened by it, without deviating from the purpose of the present invention, not inventively design with The similar frame mode of the technical solution and embodiment, all should belong to the protection range of the utility model.

Claims (5)

1. a kind of Agroeconomic Management system based on Internet of Things, it is characterised in that：It is adopted including management terminal (1), front end data Collecting system (2), course management system (3), mobile platform (4), data processing centre (6) and data storage center (7), it is described Data processing centre (6) is communicated to connect by wireless network (34) and front end data acquisition system (2) and mobile platform (4), institute The management terminal (1) stated is separately connected with data processing centre (6) and data storage center (7), the data processing centre (6) it is connected with data storage center (7), the data processing centre (6) is connected with course management system (3), described Front end data acquisition system (1) include for detecting the Temperature Humidity Sensor of temperature and humidity inside and outside soil (8), for detecting soil The acidity-basicity sensor (9) of pH value, is used for the intensity of illumination sensor (10) that intensity is illuminated by the light for real-time detection crops Gas concentration lwevel sensor (11), the soil water for detecting soil moisture of gas concentration lwevel in real-time detection planting shed Sub-sensor (33) and the panoramic camera (12) that crop growth situation is checked for a wide range of and part, the process pipe Reason system (3) includes weeder (13), fertilizer apparatus (14) and irrigation rig (15), the weeder (13), fertilising It is equipped with suspension arrangement (16) above device (14) and irrigation rig (15), the lower section of the suspension arrangement (16) is equipped with storage Water tank (17), fertilizer box (18) or stripe board (19), the lower section of the water tank (17) is equipped with several spray heads (20), described The lower section of fertilizer box (18) be equipped with several fertilising pipes (21), the lower section of the stripe board (19) is equipped with several hoes (22), the top in planting shed is equipped with crossbeam (23), and the crossbeam (23) is equipped with groove (24) above, the suspension arrangement (16) it is hung on crossbeam (23) and moves in groove (24).

2. a kind of Agroeconomic Management system based on Internet of Things according to claim 1, it is characterised in that：Described is outstanding Hang device (16) includes shell (25), and the inner upper of the shell (25) is equipped with motor (26), the motor (26) Transmission shaft is equipped with bevel gear one (27), covers and is equipped with axis (28) on the shell (25), and the axis (28) is equipped with cone The both ends set of gear two (29), the axis (28) is equipped with wheel (30), and the wheel (30) movement is interior in groove (24), The bevel gear one (27) and bevel gear two (29) is meshed, and the lower inside of the shell (25) is equipped with hydraulic device (31), the hydraulic device (31) is equipped with distance rod (32), the other end of the distance rod (32) and the water storage Case (17), fertilizer box (18) or stripe board (19) are connected, and the side of the shell (25) is equipped with for controlling motor (26) With the controller (5) of hydraulic device (31).

3. a kind of Agroeconomic Management system based on Internet of Things according to claim 1, it is characterised in that：The spray The one end of head (20) for sprinkling is in a circular table shape.

4. a kind of Agroeconomic Management system based on Internet of Things according to claim 1, it is characterised in that：Described applies 45 ° of end offset from perpendicular of fertilizer pipe (21).

5. a kind of Agroeconomic Management system based on Internet of Things according to claim 1, it is characterised in that：The hoe Head (22) is equipped with several through-holes.