CN111882014A

CN111882014A - Chicken product remote transaction system based on Internet of things

Info

Publication number: CN111882014A
Application number: CN202010763118.5A
Authority: CN
Inventors: 姜继东; 李访; 李�灿
Original assignee: Sichuan Ecology Chengpin Agriculture Development Co ltd
Current assignee: Sichuan Ecology Chengpin Agriculture Development Co ltd
Priority date: 2020-07-31
Filing date: 2020-07-31
Publication date: 2020-11-03
Anticipated expiration: 2040-07-31
Also published as: CN111882014B

Abstract

The invention relates to the field of agricultural product transaction, and adopts the technical scheme that: a chicken product remote transaction system based on the Internet of things comprises an acquisition subsystem and a transaction tracing subsystem, wherein the transaction tracing subsystem comprises a back-end server, a tracing two-dimensional code, a base station and a mobile terminal, the tracing two-dimensional code is provided with a unique chicken identity card code, the back-end server stores the life cycle data information of chicken, and the mobile terminal identifies the tracing two-dimensional code and accesses the back-end server through the base station to trace the life cycle data information of the chicken; the acquisition subsystem comprises an environment monitoring unit, an image audio acquisition unit and an exercise amount acquisition unit, wherein the environment monitoring unit, the image audio acquisition unit and the exercise amount acquisition unit are interconnected with the back-end server through a base station. The system can provide real transaction information of chicken products, and improves the trust of consumers and the value of transactions.

Description

Chicken product remote transaction system based on Internet of things

Technical Field

The invention relates to the field of agricultural product transaction, in particular to a remote transaction system for chicken products based on the Internet of things.

Background

The chicken contains vitamins C, E, etc., has high protein content, various types and high digestibility, is easily absorbed by human body, and has effects of enhancing physical strength and strengthening body. At present, in a chicken transaction mode, only the carcass characteristics of chicken are kept, and the variety is not easy to identify; in this regard, in order to facilitate consumers to know the variety of chicken, a label is usually placed on chicken by a merchant, and the label has information about the chicken. However, this approach is easily counterfeited by bad merchants, so as to be secondary and fool consumers, resulting in some consumers' serious distrust of the chicken market. In addition, in the current trading mode, consumers cannot know the information of the chicken breeding period, the chicken breeding mode, the chicken breeding environment and the like, and the trading value is reduced.

Disclosure of Invention

The invention aims to provide a chicken product remote transaction system based on the Internet of things.

In order to achieve the purpose of the invention, the technical scheme adopted by the invention is as follows: a chicken product remote transaction system based on the Internet of things comprises an acquisition subsystem and a transaction tracing subsystem, wherein the acquisition subsystem is used for acquiring and storing life cycle data information of chicken, and the transaction tracing subsystem is used for a consumer to trace and inquire the life cycle data information of the chicken;

the transaction tracing subsystem comprises a back-end server, a tracing two-dimensional code, a base station and a mobile terminal, wherein the tracing two-dimensional code is provided with a unique chicken identification card code, the back-end server stores the life cycle data information of the chicken, and the mobile terminal identifies the tracing two-dimensional code and accesses the back-end server through the base station to trace the life cycle data information of the chicken;

the system comprises an acquisition subsystem and a management subsystem, wherein the acquisition subsystem comprises an environment monitoring unit, an image audio acquisition unit and an exercise amount acquisition unit, the environment monitoring unit, the image audio acquisition unit and the exercise amount acquisition unit are interconnected with a rear-end server through a base station, the environment monitoring unit is used for monitoring and acquiring the temperature, the humidity and the illumination intensity of the natural environment of a farm in real time, the image audio acquisition unit is used for acquiring the image information and the audio information of a chicken flock and the farm, and the exercise amount acquisition unit is used for detecting and acquiring the exercise amount and the activity track of each chicken.

Preferably, the environment monitoring unit includes a plurality of environment detection nodes and repeater, the environment data information that the environment detection node will gather sends the repeater to, the repeater sends the environment data information to the basic station again, and every environment detection node integration has temperature sensor, humidity transducer and illumination sensor.

Preferably, the image audio acquisition unit comprises a camera shooting subunit, a sound recording subunit, a data processing module and a communication module, wherein the camera shooting subunit and the sound recording subunit are both connected with the data processing module, and the data processing module is interconnected with the base station by the communication module.

Preferably, the camera subunit includes the acquisition control module who is used for collecting chicken crowd's feed intake, acquisition control module includes feeder, camera and control circuit all link to each other with data processing module, the camera is installed on the lateral wall of feeder, the steerable feeder of control circuit is opened or is closed.

Preferably, the feeder comprises a storage barrel and a feeding box arranged below the storage barrel, the bottom end of the storage barrel is fixedly connected with the inner bottom wall of the feeding box, a discharge hole for discharging materials into the feeding box is formed in the outer wall of the storage barrel positioned in the feeding box, a plurality of feeding ports are formed in the side wall of the feeding box, a control mechanism for controlling the opening or closing of the feeding ports is arranged on the feeding box, the control mechanism comprises a partition plate arranged in the middle of each feeding port, a sealing plate for sealing the feeding ports is arranged in the feeding ports on two sides of the partition plate, the sealing plate is transparent, a driving assembly for controlling the sealing plate to slide in the feeding ports is arranged on the partition plate, and the driving assembly is connected with a control circuit; the closing plate slides back and forth in the feeding port to open or close the feeding port.

Preferably, the partition plate is provided with a strip-shaped hole, the sealing plates positioned on the two sides of the partition plate are connected, and the connecting part of the two sealing plates is arranged in the strip-shaped hole in a penetrating manner; drive assembly is including setting up the cavity inside the baffle, connecting portion are located the cavity to constitute sliding fit with the cavity, the cavity is kept away from and is equipped with first mounting groove on one side baffle of storage vat, be equipped with reset spring in the first mounting groove, reset spring's both ends are fixed respectively on the tank bottom of connecting portion and first mounting groove, first mounting groove periphery is equipped with annular second mounting groove, be equipped with annular gas cell in the second mounting groove, be connected with the gas tube on the gas cell, the one end that the gas cell was kept away from to the gas tube is equipped with the air pump.

Preferably, the closing plate includes first plate body and second plate body, first plate body and second plate body are articulated mutually, the second plate body is close to the storage vat, the both ends of the articulated shaft of first plate body and second plate body are equipped with torsion spring, the middle part of first plate body lower surface is connected with acts as go-between to be equipped with foraminiferous guide post in the middle part of second plate body lower surface, the guide post is passed and fixed connection is on the baffle to the one end of keeping away from first plate body is kept away from to the act as go-between.

Preferably, the upper surface of the feeding box inclines upwards along the direction of the storage barrel close to the upper surface of the feeding box, the feeding opening comprises an inclined section arranged on the upper surface of the feeding box and a vertical section arranged on the side wall of the feeding box, the closing plate is matched with the feeding opening, and the driving assembly pushes the closing plate to move along the direction of the inclination of the upper surface of the feeding box.

Preferably, the storage vat is internally provided with an upward convex bottom plate, the discharge port is positioned at the edge of the bottom plate, and the air pump is arranged below the bottom plate.

The beneficial effects of the invention are concentrated and expressed as follows: the transaction system can provide real transaction information of chicken products and improve the trust of consumers, particularly, the acquisition subsystem is composed of an environment monitoring unit, an image audio acquisition unit and a motion amount acquisition unit, the acquisition subsystem uploads natural environment information such as humidity, temperature and illumination intensity of a farm, the farm environment, breeding facilities and the dynamics of chicken flocks monitored by the image audio acquisition unit, including behaviors such as feeding, drinking, laying, pecking, excretion and the like of the chicken flocks, data information such as environmental noise, sounds emitted by the chicken flocks and other sounds to a back-end server for storage, the motion amount acquisition unit is combined to collect all data in the life cycle of each chicken, and the chicken sells the chicken by utilizing a traceability two-dimensional code of the transaction traceability subsystem, the traceability two-dimensional codes correspond to all chickens one by one, consumers scan and recognize the traceability two-dimensional codes through the mobile terminals, and access all data of the life cycles of the corresponding chickens in the back-end server to check through the identity numbers of the traceability two-dimensional codes, so that the value of transactions is improved, and the trust of consumption is improved.

Drawings

FIG. 1 is a diagram of a transaction system of the present invention;

FIG. 2 is a block diagram of the overall architecture of the present invention;

FIG. 3 is a block diagram of an acquisition control module of the present invention;

FIG. 4 is a front view of the feeder of the present invention;

FIG. 5 is a schematic top view of the feeder of the present invention;

FIG. 6 is a view from A-A in the configuration shown in FIG. 5;

FIG. 7 is an enlarged view of portion B of the structure shown in FIG. 6;

FIG. 8 is a view from the C-C direction in the configuration shown in FIG. 5;

fig. 9 is an enlarged view of a portion D in the structure shown in fig. 8.

Detailed Description

In order to make the technical solutions of the present invention better understood by those skilled in the art, the present invention will be further described in detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1-2, a chicken product remote transaction system based on the internet of things comprises an acquisition subsystem and a transaction tracing subsystem, wherein the acquisition subsystem is used for acquiring and storing life cycle data information of chickens, the life cycle data information comprises information such as farm environment and chicken flock dynamics, and the transaction tracing subsystem is used for consumers to trace and inquire the life cycle data information of the chickens;

the transaction tracing subsystem comprises a rear-end server, a tracing two-dimensional code, a base station and a mobile terminal, wherein the rear-end server stores life cycle data information of chickens, the tracing two-dimensional code is provided with an unique identification card code of the chickens, the identification code is numbered from the chicks, along with the whole life of the chickens, a consumer can utilize the mobile terminal to identify the tracing two-dimensional code and access the rear-end server through the base station to trace the life cycle data information of the chickens, so that the consumer can distinguish the variety of the chickens, and know the breeding cycle, environment, mode and other information of the chickens in the life cycle.

Furthermore, in order to collect life cycle data information of the chickens, the collection subsystem comprises an environment monitoring unit, an image audio collection unit and an exercise amount collection unit, the environment monitoring unit, the image audio collection unit and the exercise amount collection unit are interconnected with a rear-end server through a base station, the environment monitoring unit is used for monitoring and collecting temperature, humidity and illumination intensity of natural environment of the farm in real time, the image audio collection unit is used for collecting image information and audio information of the chicken flocks and the farm, and the exercise amount collection unit is used for detecting and collecting exercise amount and activity tracks of each chicken.

Specifically, the environmental monitoring unit includes a plurality of environment detection nodes and repeater, the environment data information that the environment detection node will gather sends the repeater, the repeater sends the environment data information to the basic station again, and every environment detection node is integrated to have temperature sensor, humidity transducer and light sensor, monitors the temperature, humidity and the illumination intensity of plant respectively to every environment detection node is installed in the different regions of plant, monitors simultaneously, can obtain the data degree of accuracy height.

Specifically, the image audio acquisition unit comprises a camera shooting subunit, a recording subunit, a data processing module and a communication module, wherein the camera shooting subunit and the recording subunit are connected with the data processing module, the data processing module is interconnected with the base station by using the communication module, the data processing module is an STM32 microprocessor, the camera shooting subunit comprises a video camera, the video camera is mainly used for monitoring the environment of a village community, breeding facilities and the dynamics of chicken flocks including the behaviors of feeding, drinking, laying eggs, pecking, excretion and the like of the chicken flocks, the video camera comprises an infrared camera, a color camera and an unmanned aerial vehicle, the infrared camera is mainly installed in the chicken house and other positions and used for monitoring the chicken flocks at night, and the color camera is mainly operated in the daytime and installed in each area of the breeding farm; the unmanned aerial vehicle can be used for shooting the environment of the farm integrally and shooting the chicken group activities in the daytime; the recording subunit may employ recording equipment for monitoring the village community environment for noise, chicken flock sounds and other sounds.

Specifically, the exercise amount acquisition unit comprises a foot ring with a tracing two-dimensional code, the foot ring is installed on the foot of a chicken, and meanwhile, an exercise amount acquisition circuit is arranged on the foot ring and comprises an STC12 series processor, a Bluetooth, WIFI (wireless fidelity) or 5G wireless communication module, a GPS (global positioning system) positioning module and an acceleration detection module, the wireless communication module, the positioning module and the acceleration detection module are respectively connected with the processor, the positioning module detects the position information of each chicken in real time and measures the motion step number of the chicken in combination with the acceleration detection module to obtain the motion track and other information of each chicken, the wireless communication module sends the detected information to a background server through a base station for storage, when a consumer purchases chicken, the consumer can scan the tracing two-dimensional code by using a mobile terminal, and the consumer can obtain all real information of the chicken, including the variety, type and the acceleration of the chicken, Breeding time, breeding place, breeding environment, immune operation, daily ration composition, number of movement steps, movement track and the like.

As shown in fig. 3, the camera sub-unit includes an acquisition control module for collecting the feed intake of the chickens, the acquisition control module includes a feeder, a camera and a control circuit, the camera and the control circuit are connected with a data processing module, the camera 3 is connected with the control circuit and is installed on the side wall of the feeder, the camera 3 monitors and records the feed intake condition of the chickens, the data processing module can send the feed intake information to a back-end server through a base station for storage, and consumers can know the daily ration composition of the chickens, the feed intake and other information; the controllable feeder of control circuit is opened or is closed and then put in the fodder to the chicken crowd, and the fodder of putting in the feeder is controllable, still can avoid because the breed base is in the field, and the fodder in the feeder can be eaten by animals such as the mouse of mountain, birds, and the condition that leads to the waste of fodder takes place.

As shown in fig. 4-9, the feeder comprises a storage barrel 1 and a feeding box 2 disposed below the storage barrel 1, the feeding box 2 and the storage barrel 1 are both square structures, a camera 3 is disposed on the outer wall of the storage barrel 1, the storage barrel 1 is square, the cameras 3 can be mounted on the peripheral outer wall, the feeding information of chickens can be monitored in all directions, the bottom end of the storage barrel 1 is fixedly connected with the inner bottom wall of the feeding box 2, a discharge port 4 for discharging the chickens into the feeding box 2 is disposed on the outer wall of the storage barrel 1 inside the feeding box 2, a plurality of feeding ports 5 are disposed on the side wall of the feeding box 2, a control mechanism for controlling the opening or closing of the feeding ports 5 is disposed on the feeding box 2, the control mechanism comprises a partition plate 6 disposed in the middle of each feeding port 5, and a sealing plate 7 for sealing the feeding ports 5 is disposed in the feeding ports 5 on both sides of the partition plate 6, the partition plate 6 is provided with a driving assembly for controlling the sealing plate 7 to slide in the feeding port 5, and the driving assembly is controlled by a control circuit; the closing plate 7 slides around realizing feeding and eats opening or closing of mouth 5 in feeding the food mouth 5, the feeder is in the encapsulated situation at ordinary times, when the pheasant needs the feed or camera 3 detects that the pheasant comes to the feeder when wanting to feed by side, through-hole control drive assembly, make 7 looks inboards of closing plate slide, open and feed the food mouth 5, the pheasant can begin to feed, and closing plate 7 adopts transparent PVC board, the pheasant of being convenient for observes the fodder in the feeder, and adopt the gliding mode motion of closing plate 7 to be steady relatively, can not make the chicken receive the frightening, also need not to train the chicken in earlier stage.

The partition plate 6 is provided with a strip-shaped hole 8, the sealing plates 7 positioned on the two sides of the partition plate 6 are connected, and the connecting parts 12 of the two sealing plates 7 penetrate through the strip-shaped hole 8; the driving assembly comprises a cavity 9 arranged inside the partition plate 6, the connecting portion 12 is located inside the cavity 9 and forms a sliding fit with the cavity 9, a first mounting groove 10 is formed in the partition plate 6 on one side, away from the storage vat 1, of the cavity 9, a first mounting groove 10 is formed in the partition plate 6, a return spring 11 is arranged in the first mounting groove 10, two ends of the return spring 11 are respectively fixed to the bottoms of the connecting portion 12 and the first mounting groove 10, an annular second mounting groove 13 is formed in the periphery of the first mounting groove 10, an annular inflatable bag 14 is arranged in the second mounting groove 13, an inflatable tube 15 is connected to the inflatable bag 14, an air pump 16 is arranged at one end, away from the inflatable bag 14, of the inflatable tube 15, the control circuit is a control driving circuit of the air pump 16, the specific circuit is an adopted circuit in the field, and the; when the user needs to eat, after the air pump 16 inflates the inflatable bag 14, the inflatable bag 14 is expanded and pushes the closing plate 7 to move, so that the feeding port 5 is opened; after eating, the air pump 16 is deflated, the inflatable bag 14 is deflated and contracted, the closing plate 7 pulls the closing plate 7 to move back under the action of the return spring 11, and the feeding port 5 is closed again to prevent other animals from eating by steal; note that, when the closing plate 7 is closed, the return spring 11 is in a stretched state.

Further, in order to reduce the friction between the connecting portion 12 and the cavity 9, a roller 22 may be disposed at a lower portion of the connecting portion 12, a sliding groove 23 may be disposed on a bottom wall of the cavity 9, and the roller 22 may be disposed in the sliding groove 23.

Further, in order to reduce the moving distance of the closing plate 7 capable of opening the feeding port 5 completely and opening the feeding port 5 quickly, the closing plate 7 comprises a first plate body and a second plate body, the first plate body is hinged with the second plate body, the second plate body is close to the storage tank 1, two ends of a hinged shaft of the first plate body and the second plate body are provided with torsion springs 17, the middle part of the lower surface of the first plate body is connected with a pull wire 18, the middle part of the lower surface of the second plate body is provided with a guide post 19 with a hole, one end of the pull wire 18 far away from the first plate body penetrates through the guide post 19 and is fixedly connected to the partition plate 6, in the process of opening the feeding port 5, as one end of the pull wire 18 is fixed on the partition plate 6, the pull wire 18 can enable the first plate body to rotate around the hinged shaft, so that the feeding port 5 can be opened quickly, and the maximum limit of movement of the closing, the space utilization rate is high; when the feeding mouth 5 is closed, the first plate is reset under the action of the torsion spring 17.

Furthermore, for the convenience of young chickens also can eat the fodder, state the upper surface of feeding box 2 along the direction tilt up of the storage vat 1 that is close to, feed mouthful 5 including setting up the slope section on feeding box 2 upper surface and setting up the vertical section on feeding box 2 lateral wall, feed mouthful 5 like this and open and to be bigger, be convenient for run pheasant and feed, closing plate 7 and feeding mouthful 5 looks adaptations, drive assembly promotes closing plate 7 along the direction of feeding box 2 upper surface slope and removes.

Further, 1 inside bellied bottom plate 20 that makes progress that is equipped with of storage vat, bottom plate 20 are protruding form, and the fodder of being convenient for automatic landing is to feeding in the box 2, discharge gate 4 is located the border department of bottom plate 20, the below at bottom plate 20 is installed to air pump 16, the installation control circuit of being convenient for, be equipped with fodder surplus detector 21 in the storage vat 1, fodder surplus detector 21 adopts sensors such as infrared, ultrasonic wave to detect, and the warning breeder of usable audible-visual annunciator adds the fodder when the fodder is not enough, and fodder surplus detector 21 links to each other with data processing module to 16 of air pump link to each other with control circuit.

It should be noted that, for simplicity of description, the above-mentioned embodiments of the method are described as a series of acts or combinations, but those skilled in the art should understand that the present application is not limited by the order of acts described, as some steps may be performed in other orders or simultaneously according to the present application. Further, those skilled in the art should also appreciate that the embodiments described in the specification are preferred embodiments and that the acts and elements referred to are not necessarily required in this application.

Claims

1. A chicken product remote transaction system based on the Internet of things is characterized in that: the chicken life cycle tracking system comprises an acquisition subsystem and a transaction tracking subsystem, wherein the acquisition subsystem is used for acquiring and storing life cycle data information of chickens, and the transaction tracking subsystem is used for a consumer to track and inquire the life cycle data information of the chickens;

2. The internet of things-based chicken product remote transaction system of claim 1, wherein: the environment monitoring unit comprises a plurality of environment detection nodes and a repeater, the environment detection nodes send collected environment data information to the repeater, the repeater sends the environment data information to the base station, and each environment detection node is integrated with a temperature sensor, a humidity sensor and an illumination sensor.

3. The internet of things-based chicken product remote transaction system of claim 1, wherein: the image audio acquisition unit comprises a camera shooting subunit, a recording subunit, a data processing module and a communication module, wherein the camera shooting subunit and the recording subunit are connected with the data processing module, and the data processing module is interconnected with the base station by utilizing the communication module.

4. The internet of things-based chicken product remote transaction system of claim 3, wherein: the camera subunit is including the acquisition control module who is used for collecting chicken crowd's feed intake, acquisition control module includes feeder, camera (3) and control circuit all link to each other with data processing module, and install on the lateral wall of feeder camera (3), the steerable feeder of control circuit is opened or is closed.

5. The internet of things-based chicken product remote transaction system of claim 4, wherein: the feeder comprises a storage barrel (1) and a feeding box (2) arranged below the storage barrel (1), the bottom end of the storage barrel (1) is fixedly connected with the inner bottom wall of the feeding box (2), a discharging port (4) for discharging materials into the feeding box (2) is arranged on the outer wall of the storage barrel (1) and positioned inside the feeding box (2), a plurality of feeding ports (5) are formed in the side wall of the feeding box (2), a control mechanism for controlling the feeding ports (5) to be opened or closed is arranged on the feeding box (2), the control mechanism comprises a partition plate (6) arranged in the middle of each feeding port (5), a sealing plate (7) for sealing the feeding ports (5) is arranged in the feeding ports (5) on two sides of the partition plate (6), and a driving assembly for controlling the sealing plate (7) to slide in the feeding ports (5) is arranged on the partition plate (6), the driving assembly is controlled by a control circuit; the closing plate (7) slides back and forth in the feeding port (5) to open or close the feeding port (5).

6. The internet of things-based chicken product remote transaction system of claim 5, wherein: the partition plate (6) is provided with a strip-shaped hole (8), the sealing plates (7) positioned on the two sides of the partition plate (6) are connected, and the connecting part (12) of the two sealing plates (7) penetrates through the strip-shaped hole (8); drive assembly is including setting up cavity (9) inside baffle (6), connecting portion (12) are located cavity (9) to constitute sliding fit with cavity (9), be equipped with first mounting groove (10) on one side baffle (6) of storage vat (1) are kept away from in cavity (9), be equipped with reset spring (11) in first mounting groove (10), reset spring (11)'s both ends are fixed respectively on the tank bottom of connecting portion (12) and first mounting groove (10), first mounting groove (10) periphery is equipped with annular second mounting groove (13), be equipped with annular gas cell (14) in second mounting groove (13), be connected with gas tube (15) on gas cell (14), the one end that gas tube (15) kept away from gas cell (14) is equipped with air pump (16).

7. The internet of things-based chicken product remote transaction system of claim 5, wherein: the sealing plate (7) comprises a first plate body and a second plate body, the first plate body is hinged to the second plate body, the second plate body is close to the storage vat (1), torsion springs (17) are arranged at two ends of a hinged shaft of the first plate body and the second plate body, a pull wire (18) is connected to the middle of the lower surface of the first plate body, a guide post (19) with a hole is arranged in the middle of the lower surface of the second plate body, and one end, far away from the first plate body, of the pull wire (18) penetrates through the guide post (19) and is fixedly connected to the partition plate (6).

8. The internet of things-based chicken product remote transaction system of claim 6, wherein: the storage vat (1) is internally provided with an upward convex bottom plate (20), the discharge hole (4) is positioned at the edge of the bottom plate (20), and the air pump (16) is arranged below the bottom plate (20).

9. The internet of things-based chicken product remote transaction system of claim 5, wherein: the storage barrel (1) is internally provided with a feed residual amount detector (21).