CN210442832U

CN210442832U - System for environmental monitoring and produced agricultural product traceability

Info

Publication number: CN210442832U
Application number: CN201920970494.4U
Authority: CN
Inventors: 余军
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-06-24
Filing date: 2019-06-24
Publication date: 2020-05-01
Anticipated expiration: 2029-06-24

Abstract

The utility model belongs to the technical field of agricultural production auxiliary assembly, concretely relates to system that environmental monitoring and agricultural product of producing traced to source. Linkage monitored control system has realized that all-round, multidimension degree guarantee agricultural environmental pollution just discovers unusually early under tight control when polluting the formula a little, and the very first time of being convenient for takes counter-measure, water monitoring device, comprehensive monitoring platform, air monitoring device have realized water monitoring, soil monitoring, crop monitoring, air monitoring's automation, scale, intelligent operation, have greatly improved monitoring accuracy and operating efficiency. Consequently agricultural environmental pollution linkage monitored control system has very big spreading value and wide application prospect.

Description

System for environmental monitoring and produced agricultural product traceability

Technical Field

The utility model belongs to the technical field of agricultural production auxiliary assembly, concretely relates to system that environmental monitoring and agricultural product of producing traced to source.

Background

The three agricultural's problems refer to the rural area, agriculture and peasants, and are proposed as a concept in China in the middle of the 90's of the 20 th century, and are gradually introduced by media and officials from now on. Since the new century, leaders and leaders pay more attention to the problem of agriculture, agriculture and farmers, and the problem is expressed in a new way, namely the problem is called as the important part of the work of the whole party, and the prior proposals are the first place of putting agriculture in national economic development and the basic position of strengthening agriculture. Secondly, the problem of three farmers is deeply known, and in the ' decision of common center about promoting a plurality of major problems of rural reformation development ' which is passed through by seventeen three middle schools of the party in 2008, the problem of the three farmers is summarized by using three most needed ' problems (the agricultural foundation is still weak and needs to be strengthened most, the rural development is still lagged and needs to be supported most, the income increase of farmers is still difficult and needs to be accelerated most), the guiding thought, the basic target task and the following principle of the rural reformation development are provided, and the problem of the three farmers is pointed out to be the focus problem of the Chinese reformation.

Therefore, the agriculture of China depends on the situation of going out of the sky, depending on the experience and depending on the market for transporting qi and eating; the contradiction between the small-crop productivity and the scale demand, the market expectation and the income of farmers, extensive work and fine production needs to be solved, the scientific and technological development road needs to be taken, agricultural resources of all parties are integrated through deep agricultural scientific and technological application, and the Chinese agricultural problem is solved, so that the scientific and technological agricultural development road with Chinese characteristics is taken.

At present, most agricultural production is 'eating in the sky', and crop yield and quality are extremely dependent on agricultural environments such as climate, soil, water quality, altitude, sunlight, air and the like. Specifically, the agricultural environment refers to the totality of various natural and artificially modified natural factors influencing the survival and development of agricultural organisms, including agricultural land, water, atmosphere, organisms and the like, is an important component of the natural environment for human beings to live, and belongs to the national legal environment category. The agricultural environment consists of climate, soil, water, terrain, biological elements and artificial factors, each environmental element has quality problems in different time and space, and the outstanding problems of the quality of the current Chinese agricultural environment are environmental pollution and ecological destruction.

The environmental pollution includes not only air pollution and water pollution which are easy to be perceived by people, but also soil pollution and biological factor pollution which are not easy to be perceived by people but are possibly more critical in actual conditions, the soil serves as a basic environment for crop growth, whether the soil environment is good or not is a main influence factor of crop harvest height and quality, the biological factor pollution, such as harm or even destruction caused by microorganisms such as viruses, bacteria and fungi and pests such as locust, corn borer and spodoptera frugiperda, and crop yield reduction or even absolute harvest is caused once the crop is overflowed.

In the conventional technical scheme at present, monitoring instruments are usually adopted to monitor water body pollution and atmospheric pollution, but the monitoring instruments are limited by installation modes, instrument precision and purchasing funds, and are sometimes not very accurate when used on an open field. Aiming at soil pollution, simple soil sampling equipment exists at present, but the sampling is basically carried out by manpower, the sample selection planning is not reasonable and scientific, and the large-scale and automatic operation is difficult to realize. At present, the pollution in the aspect of biological factors basically depends on farmers or researchers to find abnormal parties by naked eyes to take action, such as spodoptera frugiperda and the like which invade China recently, but for pests with strong fecundity and mobility, the pests are often too late when being visible by the naked eyes, and good effect is hardly achieved after the control.

Therefore, only by establishing a comprehensive, comprehensive and efficient agricultural environment monitoring system and performing quality deviation early warning, agricultural data can be used as an important production raw material, and effective reference is provided for scientific planting and breeding schemes, quality improvement, yield increase and efficiency increase. Only by applying an intelligent agricultural product traceability platform, utilizing flexible production and processing flow configuration and a non-falsifiable block traceability recording technology and innovating a directional consumption two-dimensional code and an authorized circulation two-dimensional code, market counterfeiting and faking can be completely eradicated, the high quality and the safety of a production source are guaranteed, the safety of subsequent processing, circulation and sale processes is guaranteed, and the food safety of people is finally guaranteed!

The agricultural product intelligent traceability platform is a system for agricultural product traceability management, is used for displaying relevant functions of the agricultural traceability platform, and comprises functions of enterprise information maintenance, farmer information traceability, agricultural product base management, traceability batch management and the like. The enterprise can accurately master the product flow direction and change on the whole production and supply chain in real time, and the whole production and circulation link is controlled to be safe and reliable.

Besides an intelligent agricultural product traceability platform, a mobile traceability system for product dynamic traceability is provided, a product traceability center database is established by utilizing database technology, distributed computing and other technologies, information fusion, inquiry and monitoring are realized, a product safety traceability public service window is established in hope of forming a comprehensive agricultural product supervision system of 'cooperative supervision, public opinion guidance, emergency response, industry self-discipline and shared grasp common management'.

At present, a plurality of mature intelligent traceability platforms and mobile traceability systems are developed, a small number of the intelligent traceability platforms and the mobile traceability systems are even put into small-scale commercial use, but at present, the practical application proportion is still low mainly aiming at high-end markets, and enough attention needs to be paid to leaders, experts and scholars in relevant departments and fields such as 'three farmers' and food, so as to open a new rule for technical innovation of agricultural production and safety of human rations. Of course, the basis of these emerging technologies is still the monitoring and control of agricultural environment, and only after the source and the basis are controlled, a more complete and large comprehensive monitoring system can be built.

Therefore, in the technical field of agricultural production auxiliary equipment, an agricultural environmental pollution monitoring system which is linked by multiple monitoring means and can perform large-scale, automatic and intelligent operation and a system which utilizes the monitoring system and combines an agricultural product traceability platform to realize the traceability of produced agricultural products are urgently needed.

Disclosure of Invention

The utility model aims at overcoming prior art's defect, providing one kind and utilizing monitored control system and combining the agricultural product platform of tracing to the source and realize the system that produces agricultural product traces to the source, agricultural environmental pollution monitored control system wherein can realize the linkage of multiple monitoring means to can scale, automatic, intelligent operation.

In order to achieve the purpose of the invention, the technical scheme adopted by the utility model is as follows: a system for environment monitoring and tracing agricultural products produced comprises a central control platform which can plan or set the type, quantity and density of sample collection according to recent monitoring data and send out corresponding instructions, and an environment pollution linkage monitoring system which receives instructions and makes response actions to obtain environment monitoring data and/or samples, wherein the samples obtained by the environment pollution linkage monitoring system are tested by a test operation facility and the data are fed back to the central control platform, and the central control platform can receive the data of the environment pollution linkage monitoring system and/or the test operation facility to compare and judge the results and arrange, archive and upload the monitoring data to a network end; the agricultural product and/or agricultural product package marking method comprises the steps of uploading intermediate information and end point information to an intelligent terminal of a network end and marking equipment for marking agricultural products and/or agricultural product packages.

Furthermore, the environmental pollution linkage monitoring system comprises a plurality of water body monitoring devices distributed along a water channel for supplying water to a field, wherein each water body monitoring device comprises a water body sampling mechanism capable of acquiring water body samples at different depths at a time;

the comprehensive monitoring platform comprises a plurality of soil sampling mechanisms and crop sampling mechanisms, wherein the soil sampling mechanisms can simultaneously obtain soil samples of different depths at a single time, and plant stem leaf samples near soil sampling points can be obtained;

including the vertical air monitoring device who sets up wind direction on the field, air monitoring device is including setting up the air monitoring plant on wind-gathering plate in order.

Further, the water body sampling mechanism comprises a fixed pipe vertically arranged at the bottom of the water channel, a tightly attached outer pipe is arranged in the fixed pipe, and a tightly attached inner pipe is arranged in the outer pipe; the water inlet is arranged on the pipe wall of the fixed pipe at different heights along the water flow direction in the water channel, the water inlet is arranged on the pipe wall of the outer pipe at the opposite side corresponding to the position of the water inlet, the water taking port is arranged on the pipe wall of the inner pipe at the opposite side corresponding to the position of the water inlet, and a partition plate for dividing the inner cavity of the inner pipe into a plurality of sections is arranged between the adjacent water taking ports on the inner wall of the inner pipe.

Furthermore, the water body monitoring device comprises a water body monitoring platform erected above the water channel, at least four rollers which are respectively positioned on two side banks of the water channel and can roll along the water channel are arranged at the position, close to corners, of the bottom of the water body monitoring platform, and a sampling hole for a water body sampling mechanism to pass through is formed in the middle of the water body monitoring platform; a first rotating mechanism capable of driving the inner pipe to rotate is arranged on the top surface of the water body monitoring platform and close to the sampling hole, and a second rotating mechanism capable of driving the outer pipe to rotate is arranged on the bottom surface of the water body monitoring platform and close to the sampling hole; the top of the water body monitoring platform is provided with a plurality of water body sample frames capable of placing the outer pipes, and the water body monitoring platform is also provided with a first clamping mechanism capable of carrying the outer pipes between the fixed pipes and the water body sample frames.

Furthermore, first rotary mechanism, second rotary mechanism all include the claw that opens and shuts of the fixed or body of letting go of controllable, the claw that opens and shuts passes through the rotary rod and is connected with rotatory slider, rotatory slider and rotatory slide rail sliding connection, rotatory slide rail is the arc setting and just is concentric with the body at water monitoring station top surface or bottom surface.

Further, first fixture includes the first roating seat of being connected with the rotation of water monitoring platform, first roating seat top rigid coupling first lifter, first lifter top is connected first slip arm perpendicularly, the one end of first slip arm is equipped with first gripper jaw.

Further, the air monitoring plants include one or more of the following air pollution sensitive plants: lichen, petunia, gladiolus, pteris multifida, wisteria; the air monitoring device further comprises an air quality monitor arranged on the wind gathering plate.

The utility model discloses following beneficial effect has:

1. the linkage monitoring system covers water body monitoring, soil monitoring, crop monitoring, air monitoring and the like, not only adopts an electrified monitoring instrument, but also combines pollution sensitive plants for auxiliary monitoring, thereby realizing omnibearing and multidimensional guarantee of agricultural environment pollution under strict monitoring, finding abnormality as soon as possible when the pollution type is slight, and being convenient for taking countermeasures at the first time.

2. The water body monitoring device can move along the irrigation water channel by itself, and according to the demand, the sampling monitoring of the whole section of water channel is carried out, and the sample density can be reasonably adjusted according to the length of the water channel, the actual production, the recent actual measurement data and the like, so that the feedback mechanism is formed to guarantee the scientific effectiveness of the monitoring condition, a plurality of water body monitoring devices can be erected if the water channel is long, the water body sampling mechanism can sample the water body samples with different depths at a single time, the operation efficiency is guaranteed when more water body environment information is fed back, the water body monitoring device realizes the automatic, large-scale and intelligent operation of water body monitoring, and the monitoring precision and the operation efficiency are greatly improved.

Drawings

FIG. 1 is a flow chart of the operation of the traceability system for environmental monitoring and produced agricultural products of the present invention;

FIG. 2 is a plan view of the floor according to the present invention;

fig. 3 is a top view of the water monitoring device of the present invention;

figure 4 is the front cross-sectional view of the water body monitoring device of the utility model

Fig. 5 is an enlarged view of a portion a of fig. 4 according to the present invention.

Wherein: the device comprises a field 1, a water channel 2, a track 3, a water body monitoring device 4, a comprehensive monitoring platform 5, a wind-gathering plate 6, an air monitoring plant 7, a water body sampling mechanism 8, a soil sampling mechanism 9, a crop sampling mechanism 10, a fixed pipe 11, an outer pipe 12, an inner pipe 13, a water through hole 14, a water inlet 15, a water intake 16, a water body monitoring platform 17, a roller 18, a sampling hole 19, a first rotating mechanism 20, a second rotating mechanism 21, a water body sample frame 22, a first clamping mechanism 23, an opening and closing claw 24, a rotating rod 25, a rotating slide block 26, a rotating slide rail 27, a first rotating seat 28, a first lifting rod 29, a first sliding arm 30, a first clamping claw 31 and a pit 65.

Detailed Description

Referring to fig. 1 to 5, a system for environment monitoring and tracing agricultural products is characterized in that: the system comprises a central control platform which can plan or set the sample collection types, the number and the density according to recent monitoring data and send corresponding instructions, and further comprises an environmental pollution linkage monitoring system which receives instructions and makes response actions to obtain environmental monitoring data and/or samples, wherein the samples obtained by the environmental pollution linkage monitoring system are tested by a testing operation facility and feed back the data to the central control platform, and the central control platform can receive the data of the environmental pollution linkage monitoring system and/or the testing operation facility, compare and judge the results and arrange, archive and upload the monitoring data to a network terminal; the agricultural product and/or agricultural product package marking method comprises the steps of uploading intermediate information and end point information to an intelligent terminal of a network end and marking equipment for marking agricultural products and/or agricultural product packages. It can be understood that the central control platform is a central control room, a server and the like which receive and process data of the environmental pollution linkage monitoring system and/or the test working facility and send related instructions according to the data or upload the data to a network end; the testing facilities can carry out relevant tests on water samples, soil samples and crop samples, and the testing personnel, instruments, equipment and standards are all established and universal and are not described herein again; the intermediate information comprises processing information, logistics distribution information and the like, the destination information comprises sales information, warehousing information, sales information and the like, the intelligent terminal for uploading the information to the network end can be an intelligent mobile phone, a tablet or a computer and the like, and the purpose is to integrate the information into a network traceability platform, so that complete data flow can be formed conveniently, and agricultural product traceability can be realized; the marking device is a device for printing, pasting and sleeving marks corresponding to the end point information and the intermediate information on the agricultural products or the agricultural product packages, and the marks can be two-dimensional codes, bar codes, character string codes and the like. For the convenience of understanding, refer to fig. 1, demonstrate the utility model discloses environmental monitoring and the agricultural product traceability system's that produces operation flow chart, wherein follow-up upload to the intelligent terminal of network end with intermediate information, terminal point information etc. and do according to the information with the marker device of mark all inequality according to the difference of using area, operating personnel, agricultural product kind appearance, consequently do not have clear and definite regulation, neither realistic nor unnecessary, as long as can realize entire system's basic work can.

Further, the environmental pollution linkage monitoring system comprises a plurality of water body monitoring devices 4 distributed along a water channel 2 for supplying water to the field 1, wherein each water body monitoring device 4 comprises a water body sampling mechanism 8 capable of acquiring water body samples at different depths at a time; the comprehensive monitoring platform 5 comprises a plurality of comprehensive monitoring platforms 5 scattered on a field 1, wherein each comprehensive monitoring platform 5 comprises a soil sampling mechanism capable of simultaneously acquiring soil samples of different depths at a single time and a crop sampling mechanism capable of acquiring plant stem leaf samples near soil sampling points; including the vertical air monitoring devices who sets up wind direction on field 1, air monitoring devices is including setting up air monitoring plant 7 on wind-collecting plate 6 in order. It can be understood that, water body monitoring, soil monitoring, crop monitoring, air monitering etc. have been covered to linkage monitored control system, not only adopted automatic, electrified monitoring instrument, still combined and polluted sensitive plant and carried out the auxiliary monitoring, it is here only to write out and set up the air monitoring plant in order on the wind-collecting plate 6, but also can cultivate the condition that soil pollution sensitive plant monitored soil environment in field 1 equally, plant the condition that water pollution sensitive plant monitored water environment in water course 2, water body sampling mechanism 8, soil sampling mechanism, crop sampling mechanism can collect water body sample, soil sample, crop sample and transport the sample to test operation facility department to wait follow-up operations such as inspection, analysis and record according to setting for with the demand.

Further, the water body sampling mechanism 8 comprises a fixed pipe 11 vertically arranged at the bottom of the water channel 2, a tightly attached outer pipe 12 is arranged in the fixed pipe 11, and a tightly attached inner pipe 13 is arranged in the outer pipe 12; the water inlet 14 is arranged at the pipe wall of the fixed pipe 11 with different heights along the water flow direction in the water channel 2, the water inlet 15 is arranged on the pipe wall of the outer pipe 12 opposite to the position of the water inlet 14, the water intake 16 is arranged on the pipe wall of the inner pipe 13 opposite to the position of the water inlet 15, and a partition plate 62 for dividing the inner cavity of the inner pipe 13 into a plurality of sections is arranged between the adjacent water intakes 16 on the inner wall of the inner pipe 13. It will be appreciated that the fixed pipe 11 can be fixed to the bottom of the waterway 2 by fasteners or fasteners, the corresponding position of the water channel 2 can be made into a pit 65 shape, so that the installation of the fixed pipe 11 is convenient, impurities in water can be conveniently gathered at the position, the sensitivity of water body monitoring is improved, the water through opening 14 of the fixed pipe 11 is opposite to the water inlet opening 15 of the outer pipe 12, the water inlet opening 15 of the outer pipe 12 is opposite to the water intake opening 16 of the inner pipe 13, because the pipe bodies are tightly attached, when the outer pipe 12 of the inner pipe 13 which is sleeved with the outer pipe is inserted into the fixed pipe 11, water can not enter the inner cavity of the inner pipe 13 and is discharged from the bottom of the fixed pipe 11, when the outer pipe 12 and the inner pipe 13 are twisted to the water inlet 15 and the water intake 16 is opposed to the water passage port 14, the water flows into the inner cavity of the inner pipe 13, the outer pipe 12 and the inner pipe 13 are rotated relatively to the water inlet 15 and the water intake 16, and the sampling of the water body is completed.

Further, the water body monitoring device 4 comprises a water body monitoring platform 17 erected above the water channel 2, at least four rollers 18 which are respectively positioned on two side banks of the water channel 2 and can roll along the water channel 2 under control are arranged at the position, close to corners, of the bottom of the water body monitoring platform 17, and a sampling hole 19 for the water body sampling mechanism 8 to pass through is arranged in the middle of the water body monitoring platform 17; a first rotating mechanism 20 capable of driving the inner pipe 13 to rotate is arranged on the top surface of the water body monitoring platform 17 and close to the sampling hole 19, and a second rotating mechanism 21 capable of driving the outer pipe 12 to rotate is arranged on the bottom surface of the water body monitoring platform 17 and close to the sampling hole 19; the top of the water body monitoring platform 17 is provided with a plurality of water body sample frames 22 capable of placing the outer pipe 12, and is also provided with a first clamping mechanism 23 capable of carrying the outer pipe 12 between the fixed pipe 11 and the water body sample frames 22. It can be understood that the water body monitoring device 4 is erected above the water channel 2, the rails 3 extending along the water channel 2 can be laid on both sides of the water channel 2 so as to facilitate the smooth movement of the rollers 18 on the convex rails 3 or in the concave rails 3, the first rotating mechanism 20 and the second rotating mechanism 21 can drive the outer pipe 12 and the inner pipe 13 to rotate relatively, so as to realize the sampling operation of the water body, and the sleeve pipe formed by the outer pipe 12 and the inner pipe 13 after sampling is carried to the water body sample frame 22 by the first clamping mechanism 23 for placement.

Further, the first rotating mechanism 20 and the second rotating mechanism 21 both include an opening and closing claw 24 capable of being controlled to fix or release the pipe body, the opening and closing claw 24 is connected with a rotating slider 26 through a rotating rod 25, the rotating slider 26 is connected with a rotating slide rail 27 in a sliding manner, and the rotating slide rail 27 is arranged on the top surface or the bottom surface of the water body monitoring platform 17 in an arc shape and is concentric with the pipe body. It can be understood that the first rotating mechanism 20 and the second rotating mechanism 21 have substantially the same structure, except that the first rotating mechanism 20 is located on the top surface of the water body monitoring platform 17 for rotating the inner pipe 13, and the second rotating mechanism 21 is located on the bottom surface of the water body monitoring platform 17 for rotating the outer pipe 12; the opening and closing claw 24 is used for controlled gripping or releasing of the pipe body, the rotating slide block 26 slides along the slide rail 27 through racks, guide rails and the like, and therefore the rotating rod 25 drives the opening and closing claw 24 to rotate corresponding to the pipe body; the specific structures of the first rotating mechanism 20 and the second rotating mechanism 21 are only one possible embodiment, and may also be other mechanisms that can grip and rotate the tube body, as those skilled in the art can easily think of other equivalent alternative structures on the basis of this embodiment, and will not be described herein again.

Further, first fixture 23 includes the first roating seat 28 of being connected with water monitoring platform 17 rotation, first roating seat 28 top rigid coupling first lifter 29, first lifter 29 top is connected first gliding arm 30 perpendicularly, the one end of first gliding arm 30 is equipped with first gripper jaw 31. It should be understood that the specific structure of the first clamping mechanism 23 is only a feasible implementation manner, and as a common carrying device in the technical field of engineering industry, other structures such as a robot arm and the like capable of performing equivalent actions may also be used, and operations such as running, installing, debugging and the like thereof are the most basic common knowledge well known to those skilled in the art, and thus, detailed description thereof is omitted here.

Further, the air monitoring plants 7 include one or more of the following air pollution sensitive plants: lichen, petunia, gladiolus, pteris multifida, wisteria; the air monitoring device also comprises an air quality monitor arranged on the wind gathering plate 6. It can be understood that the air quality monitor can be used as an auxiliary means to directly display the air quality condition, and the air monitoring plant 7 can be one or more of lichen, petunia, gladiolus, pteris multifida, wisteria sinensis and other air pollution sensitive plants, so that the air quality abnormity caused by different pollution sources can be conveniently monitored.

It can be understood that all be equipped with central controller among water monitoring devices 4, the comprehensive monitoring platform 5, the air monitoring device, central controller's kernel can be singlechip or PLC, central controller can control action direction, range, time etc. of mechanism on above-mentioned device or the platform, and each central controller again with always control room signal connection in the field, can carry out data acquisition and feedback according to setting for under controlling of always controlling the room automatic planning or. Photoelectric sensing mechanisms such as cameras or infrared sensors are arranged at the bottoms of the water body monitoring platform 17 and the comprehensive detection platform 39 to acquire external information in real time, so that the water body monitoring device 4 and the comprehensive monitoring platform 5 can run along a given route on the water channel 2 or the field 1 and stay near or over a water body sample, a soil sample and a crop sample to-be-sampled point. These are all the technical points that the technical party must include, but are not the point of improvement of the technical solution, and are known to those skilled in the art as conventional techniques or conventional options, and are not described herein for a short time.

It is to be understood that the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings for convenience in describing the invention, and are not intended to indicate or imply that the claimed components or mechanisms must be in a particular orientation, constructed and operated in a particular orientation, and are therefore not to be considered limiting of the invention.

The above embodiments are preferred embodiments of the present invention, but the present invention is not limited to the above embodiments, and any other changes, modifications, substitutions, combinations, and simplifications which do not depart from the spirit and principle of the present invention should be construed as equivalents thereof, and all such changes, modifications, substitutions, and simplifications are intended to be included in the scope of the present invention.

Claims

1. The utility model provides a system for environmental monitoring and agricultural product traceability which characterized in that: the system comprises a central control platform which can plan or set the sample collection types, the number and the density according to recent monitoring data and send corresponding instructions, and further comprises an environmental pollution linkage monitoring system which receives instructions and makes response actions to obtain environmental monitoring data and/or samples, wherein the samples obtained by the environmental pollution linkage monitoring system are tested by a testing operation facility and feed back the data to the central control platform, and the central control platform can receive the data of the environmental pollution linkage monitoring system and/or the testing operation facility, compare and judge the results and arrange, archive and upload the monitoring data to a network terminal; the agricultural product and/or agricultural product package marking method comprises the steps of uploading intermediate information and end point information to an intelligent terminal of a network end and marking equipment for marking agricultural products and/or agricultural product packages.

2. The system for environmental monitoring and traceability of produced agricultural products, as claimed in claim 1, wherein: the environment pollution linkage monitoring system comprises a plurality of water body monitoring devices (4) distributed along a water channel (2) for supplying water to a field (1), wherein each water body monitoring device (4) comprises a water body sampling mechanism (8) capable of acquiring water body samples at different depths at a time;

the comprehensive monitoring system comprises a plurality of comprehensive monitoring platforms (5) scattered on a field (1), wherein each comprehensive monitoring platform (5) comprises a soil sampling mechanism capable of simultaneously acquiring soil samples of different depths at a single time and a crop sampling mechanism capable of acquiring plant stem leaf samples near a soil sampling point;

including the vertical air monitoring device who sets up wind direction on field (1), air monitoring device is including setting up air monitoring plant (7) on wind collecting plate (6) in order.

3. The system for environmental monitoring and traceability of produced agricultural products of claim 2, wherein: the water body sampling mechanism (8) comprises a fixed pipe (11) vertically arranged at the bottom of the water channel (2), a tightly-attached outer pipe (12) is arranged in the fixed pipe (11), and a tightly-attached inner pipe (13) is arranged in the outer pipe (12); the water inlet (14) is arranged at the positions of the pipe walls of the fixed pipe (11) with different heights along the water flow direction in the water channel (2), a water inlet (15) is arranged on the pipe wall of the outer pipe (12) on the opposite side corresponding to the position of the water inlet (14), a water intake (16) is arranged on the pipe wall of the inner pipe (13) on the opposite side corresponding to the position of the water inlet (15), and a partition plate (62) for dividing the inner cavity of the inner pipe (13) into a plurality of sections is arranged between the adjacent water intakes (16) on the inner wall of the inner.

4. The system for environmental monitoring and traceability of produced agricultural products, as claimed in claim 3, wherein: the water body monitoring device (4) comprises a water body monitoring platform (17) erected above the water channel (2), at least four rollers (18) which are respectively positioned on two side banks of the water channel (2) and can roll along the water channel (2) under control are arranged at positions, close to corners, of the bottom of the water body monitoring platform (17), and a sampling hole (19) for a water body sampling mechanism (8) to pass through is formed in the middle of the water body monitoring platform (17); a first rotating mechanism (20) capable of driving the inner pipe (13) to rotate is arranged on the top surface of the water body monitoring platform (17) and close to the sampling hole (19), and a second rotating mechanism (21) capable of driving the outer pipe (12) to rotate is arranged on the bottom surface of the water body monitoring platform (17) and close to the sampling hole (19); the top of the water body monitoring platform (17) is provided with a plurality of water body sample frames (22) capable of placing the outer pipe (12), and the water body monitoring platform is also provided with a first clamping mechanism (23) capable of carrying the outer pipe (12) between the fixed pipe (11) and the water body sample frames (22).

5. The system for environmental monitoring and traceability of produced agricultural products, as claimed in claim 4, wherein: first rotary mechanism (20), second rotary mechanism (21) all include the claw (24) that opens and shuts of the fixed or body of letting go up of controllable, the claw (24) that opens and shuts passes through rotary rod (25) and is connected with rotatory slider (26), rotatory slider (26) and rotatory slide rail (27) sliding connection, rotatory slide rail (27) are the arc setting at water monitoring platform (17) top surface or bottom surface and with the body concentric.

6. The system for environmental monitoring and traceability of produced agricultural products, as claimed in claim 4, wherein: first fixture (23) include rotate first roating seat (28) of being connected with water monitoring platform (17), first roating seat (28) top rigid coupling first lifter (29), first slip arm (30) is connected perpendicularly at first lifter (29) top, the one end of first slip arm (30) is equipped with first gripper jaw (31).

7. The system for environmental monitoring and traceability of produced agricultural products of claim 2, wherein: the air monitoring plants (7) include one or more of the following air pollution sensitive plants: lichen, petunia, gladiolus, pteris multifida, wisteria; the air monitoring device also comprises an air quality monitor arranged on the wind gathering plate (6).