CN113905340A - Intelligent breeding system - Google Patents

Abstract

The embodiment of the invention discloses an intelligent breeding system, which comprises: the Bluetooth MESH topological network is used for sending the monitoring information of each monitoring device to the server through the communication device; the server is used for storing the monitoring information of each monitoring device, generating an alarm prompt under the condition that the monitoring information is determined to be abnormal, and sending the alarm prompt to the cultivation management terminal; and the breeding management terminal is used for receiving the alarm prompt and displaying the alarm prompt. The monitoring information of each monitoring device is sent to the server through the Bluetooth MESH topological networking through the communication device, the server sends out an alarm prompt to send to the breeding management terminal under the condition that the monitoring information is determined to be abnormal, so that the breeding management personnel can timely know the abnormal condition of the breeding environment and timely process the abnormal condition, the system is simple in structure, the cost of manual monitoring is saved, the management efficiency of the breeding environment is improved, and the equipment cost of the breeding environment monitoring is reduced.

Description

Intelligent breeding system

Technical Field

The embodiment of the invention relates to the technical field of livestock breeding, in particular to an intelligent breeding system.

Background

Currently, livestock breeding is divided into two main categories: farming and grazing farming in rural areas, and the farming usually occupies a large proportion, for example, the farming of poultry chickens, and the poultry chickens have high requirements on the environment in the farming process, and need uniform illumination intensity, stable illumination time, light colors with different light wavelengths and proper temperature.

At present, although a better environment can be provided for poultry chicken breeding aiming at modern large-scale breeding, breeding equipment is higher in cost, and the equipment is complex in structure, so that professional management technicians are required for management and regular maintenance, and personnel cost and time cost are also higher; however, for small-sized scattered household breeding, under the condition that breeding equipment is not purchased, a manual monitoring mode is generally adopted to ensure the health condition of poultry chickens, so that the labor cost is high and the efficiency is low, and therefore, the existing breeding system cannot meet the requirement of users, particularly small-sized scattered households, on farming in rural areas.

Disclosure of Invention

The embodiment of the invention provides an intelligent culture system, which is used for effectively monitoring a culture environment.

An embodiment of the present invention provides an intelligent system, including: the system comprises a Bluetooth wireless MESH MESH topological networking consisting of a plurality of monitoring devices, a server in communication connection with the Bluetooth MESH topological networking through communication equipment, and a culture management terminal in communication connection with the server;

the system comprises a Bluetooth MESH topological network and a server, wherein the Bluetooth MESH topological network is used for sending monitoring information of each monitoring device to the server through communication equipment, and the monitoring information comprises breeding environment information and a monitoring device identifier;

the server is used for storing the monitoring information of each monitoring device, generating an alarm prompt under the condition that the monitoring information is determined to be abnormal, and sending the alarm prompt to the cultivation management terminal;

and the breeding management terminal is used for receiving the alarm prompt and displaying the alarm prompt.

According to the technical scheme of the embodiment of the invention, the monitoring information of each monitoring device is sent to the server through the communication device through the Bluetooth MESH topological networking, and the server sends out the alarm prompt to the breeding management terminal under the condition that the monitoring information is determined to be abnormal, so that the breeding management personnel can know the abnormal condition of the breeding environment in time and process the abnormal condition in time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a schematic structural diagram of an intelligent farming system according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a monitoring device according to a second embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

Example one

Fig. 1 is a schematic structural diagram of an intelligent aquaculture system according to an embodiment of the present invention, and as shown in fig. 1, the intelligent aquaculture system includes: the system comprises a Bluetooth wireless MESH MESH topological networking 11 consisting of a plurality of monitoring devices, a server 13 which is in communication connection with the Bluetooth MESH topological networking 11 through a communication device 12, and a culture management terminal 14 which is in communication connection with the server 13.

The bluetooth MESH topology networking 11 is configured to send monitoring information of each monitoring device to the server 13 through the communication device 12, where the monitoring information includes breeding environment information and a monitoring device identifier. And the server 13 is used for storing the monitoring information of each monitoring device, generating an alarm prompt under the condition that the monitoring information is determined to be abnormal, and sending the alarm prompt to the cultivation management terminal 14. And the breeding management terminal 14 is used for receiving the alarm prompt and displaying the alarm prompt.

It should be noted that the intelligent breeding system in this embodiment may be specifically applied to a farm, such as a chicken farm, and the monitoring devices may be respectively disposed in different chicken coops of the chicken farm, each monitoring device respectively acquires breeding environment information located in the chicken coop, and each monitoring device in the MESH topology networking is communicated with each other, so that the environment information sent by each monitoring device may be received by other adjacent monitoring devices in the MESH topology networking.

Optionally, the monitoring device includes: the system comprises a first Bluetooth module, a temperature sensor, a humidity sensor, an infrared sensor and a light sensation sensor; the temperature sensor is used for acquiring the temperature in the environment within the preset area range; the humidity sensor is used for acquiring the humidity in the environment within the preset area range; the infrared sensor is used for acquiring the body temperature of the cultured animals in a preset area range; the light sensor is used for acquiring illumination in a preset area range; taking temperature, humidity, body temperature of the cultured animals and illumination as monitoring information; and the first Bluetooth module is used for directly sending the monitoring information to the communication equipment, or indirectly sending the monitoring information to the communication equipment through the monitoring equipment specified in the Bluetooth MESH topological networking.

Optionally, each preset region range corresponds to one cultivation region. In the present embodiment, the chicken farm may include a plurality of chicken sheds, and the cultivation area herein specifically refers to a chicken shed, that is, each preset area range corresponds to one chicken shed.

Specifically, in the present embodiment, the monitoring device obtains breeding environment information in the corresponding chicken coop through different types of sensors, for example, temperature, humidity, and illumination in the chicken coop, body temperature of poultry chicken in the chicken coop, and the illumination may specifically include illumination intensity, light color corresponding to different light wavelengths, illumination duration, and the like, and uses information obtained by the different sensors as monitoring information, which is, of course, only illustrated by way of example in the present embodiment, and does not limit specific content of the monitoring information, since each monitoring device corresponds to one identifier as a node in the MESH topology network, the monitoring information further includes a monitoring device identifier, so that a receiving party can know which monitoring device the monitoring information corresponds to in a subsequent transmission process, and since a position of each node, that is, the monitoring device, is already set when networking is performed, therefore, after the identification of the monitoring equipment is obtained, the position of the monitoring equipment can be determined according to the networking structure.

Optionally, the communication device includes a communication module and a second bluetooth module; the second Bluetooth module is used for receiving monitoring information of each monitoring device sent by the Bluetooth MESH topological network and transmitting the monitoring information to the communication module, wherein the second Bluetooth module is the same as the first Bluetooth module in type; and the communication module is used for sending the monitoring information of each monitoring device to the server.

Specifically, the communication device includes a communication module and a second bluetooth module, and the type of the second bluetooth module is the same as that of the first bluetooth module in each monitoring device in the MESH topology networking, so that the communication device can perform short-distance wireless communication with the MESH topology networking, that is, obtain monitoring information of each monitoring device in the MESH topology networking, and the communication device specifically uses the communication module to communicate with the server 13.

Optionally, the server is specifically configured to compare the monitoring information with a preset parameter range, determine that the monitoring information is abnormal when it is determined that the monitoring information exceeds the preset parameter range, and generate an alarm prompt, where the alarm prompt includes a monitoring device identifier corresponding to the monitoring information; and sending the alarm prompt to the cultivation management terminal in the form of a short message, a telephone or an application program popup window.

Specifically, corresponding preset parameter ranges are respectively set in the server for the environment information of the chicken farm, for example, the preset temperature range is 19 ℃ to 21 ℃, the server compares the temperature in the monitoring information with the preset temperature range after acquiring the monitoring information of each monitoring device, and when the temperature is lower than or higher than the preset temperature range, the monitoring information is determined to be abnormal and an alarm prompt is generated, for example, the monitoring information is sent to the breeding management terminal in the form of a short message, a network telephone or an application program popup window, so that the breeding management personnel can timely go to the chicken farm to process the abnormal condition after acquiring the alarm prompt through the breeding management terminal. Certainly, poultry chickens of different ages in weeks can be cultured in different chicken sheds, different preset temperature ranges are required to be set for the different chicken sheds, and therefore the server compares the monitoring information with the corresponding preset temperature ranges according to the chicken shed where the monitoring equipment is located after the server acquires the monitoring information of the monitoring equipment. In this embodiment, only the temperature in the monitoring information is taken as an example for illustration, and the way of determining the abnormality for other parameters in the monitoring information is substantially the same as the temperature, so that details are not repeated in this embodiment

Optionally, the breeding management terminal is further configured to send, in response to detecting an inquiry operation instruction of the user, the inquiry operation instruction to the server, where the inquiry operation instruction includes the monitoring device identifier; and the server is used for receiving the query operation instruction, querying the breeding environment information corresponding to the monitoring equipment identifier and sending a query result to the breeding management terminal.

Specifically, since the application corresponding to the monitoring device is installed on the breeding management terminal, when a breeding manager wants to check the current environment information of the chicken farm, the application on the breeding management terminal may be operated, for example, to request to check the temperature information in the monitoring device 1, the breeding management terminal sends an inquiry operation instruction to the server in response to detecting the inquiry operation instruction of the user, and after receiving the inquiry operation instruction, "request to check the temperature information in the monitoring device 1," the server obtains the temperature information corresponding to the monitoring device 1 by inquiring, for example, "the temperature in the monitoring device 1 is 21 ℃," because the server has received the monitoring information of each monitoring device through the communication device, and sends the inquiry result to the breeding management terminal.

It should be noted that the breeding management terminal may also adopt a form of a web interface for the administrator to view, and the specific form of the operation interface of the administrator is not limited in this embodiment, and as long as the query operation instruction can be sent to the server, the query operation instruction is within the protection scope of the application, and the embodiment of the application is not limited in this embodiment.

According to the technical scheme of the embodiment of the invention, the monitoring information of each monitoring device is sent to the server through the communication device through the Bluetooth MESH topological networking, and the server sends out the alarm prompt to the breeding management terminal under the condition that the monitoring information is determined to be abnormal, so that the breeding management personnel can know the abnormal condition of the breeding environment in time and process the abnormal condition in time.

Example two

Fig. 2 is a schematic structural diagram of a monitoring device according to a second embodiment of the present invention, and this embodiment specifically explains a structure of the monitoring device on the basis of the first embodiment.

Wherein, supervisory equipment includes: a first bluetooth module 26, a temperature sensor 22, a humidity sensor 23, an infrared sensor 24 and a light sensor 25; the temperature sensor 22 is used for acquiring the temperature in the environment of the preset area range; the humidity sensor 23 is used for acquiring humidity in an environment within a preset area range; the infrared sensor 24 is used for acquiring the body temperature of the cultured animals in a preset area range; the light sensor 25 is used for acquiring illumination within a preset area range; taking temperature, humidity, body temperature of the cultured animals and illumination as monitoring information; the first bluetooth module 26 is configured to directly send the monitoring information to the communication device, or indirectly send the monitoring information to the communication device through a monitoring device specified in the bluetooth MESH topology networking. For details of the above structure, reference may be made to the first embodiment, and therefore, details are not described in this embodiment.

Optionally, the monitoring device further includes: a processing module 21, a buzzer 27 and an indicator light 28; the processing module 21 is configured to compare the monitoring information with a preset parameter range, and send a start instruction to the buzzer 27 and a color change instruction to the indicator light when it is determined that the monitoring information is abnormal when it is determined that the monitoring information exceeds the preset parameter range; a buzzer 27 for giving an alarm sound according to the opening instruction; an indicator light 28 for converting the light to a designated color according to a color change instruction; the monitoring equipment is also used for adding an abnormal state label to the abnormal monitoring information and then sending the abnormal monitoring information to the server through the communication equipment.

Optionally, the server is further configured to generate an alarm prompt according to the monitoring information added with the abnormal state tag, where the alarm prompt includes a monitoring device identifier corresponding to the monitoring information; and sending the alarm prompt to the cultivation management terminal in the form of a short message, a telephone or an application program popup window.

Specifically, in this embodiment, the monitoring device may directly determine the monitoring information acquired by the sensor at the local processing module, determine an abnormal condition, and add an abnormal state tag to the abnormal monitoring information and send the abnormal monitoring information to the server through the communication device, so that the server in this embodiment does not need to compare the monitoring information with a preset parameter range, but directly generates the alarm prompt information when determining that the abnormal state tag is added to the monitoring information, and includes the monitoring device identifier corresponding to the abnormal monitoring information in the alarm prompt information, and sends the alarm prompt to the breeding management terminal in the form of a short message, a telephone, or an application extent popup window.

Wherein, supervisory equipment can send out alarm sound through bee calling organ, perhaps the pilot lamp changes red and reports to the police into to make breed managers can be quick confirm unusual chicken coop appears after arriving the chicken farm, with further improvement treatment effeciency.

Optionally, the monitoring device further comprises a first power module, and the power module is used for supplying power to the first bluetooth module, the temperature sensor, the humidity sensor, the infrared sensor, the light sensation sensor, the processing module, the buzzer and the indicator light.

Optionally, the communication device further includes a second power module, and the second power module is configured to supply power to the communication module and the second bluetooth module.

Specifically speaking, a first power supply module is added in the monitoring equipment, and a second power supply module is added in the communication equipment, so that the normal work of each monitoring equipment and each communication equipment is ensured, and the condition that monitoring information acquisition and information transmission fail due to insufficient electric quantity is avoided.

According to the technical scheme of the embodiment of the invention, the monitoring information of each monitoring device is sent to the server through the communication device through the Bluetooth MESH topological networking, and the server sends out the alarm prompt to the breeding management terminal under the condition that the monitoring information is determined to be abnormal, so that the breeding management personnel can know the abnormal condition of the breeding environment in time and process the abnormal condition in time.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.

Claims (10)

1. An intelligent farming system, comprising: the system comprises a Bluetooth wireless MESH MESH topological networking consisting of a plurality of monitoring devices, a server in communication connection with the Bluetooth MESH topological networking through communication equipment, and a culture management terminal in communication connection with the server;

the Bluetooth MESH topology networking is used for sending the monitoring information of each monitoring device to the server through the communication device, wherein the monitoring information comprises breeding environment information and a monitoring device identifier;

the server is used for storing the monitoring information of each monitoring device, generating an alarm prompt under the condition that the monitoring information is determined to be abnormal, and sending the alarm prompt to the breeding management terminal;

and the breeding management terminal is used for receiving the alarm prompt and displaying the alarm prompt.

2. The intelligent farming system of claim 1, wherein the monitoring device comprises: the system comprises a first Bluetooth module, a temperature sensor, a humidity sensor, an infrared sensor and a light sensation sensor;

the temperature sensor is used for acquiring the temperature in the environment within the preset area range; the humidity sensor is used for acquiring the humidity in the environment within the preset area range; the infrared sensor is used for acquiring the body temperature of the cultured animals in a preset area range; the light sensor is used for acquiring illumination in a preset area range; taking the temperature, the humidity, the body temperature of the cultured animals and the illumination as the monitoring information;

the first Bluetooth module is configured to directly send the monitoring information to the communication device, or indirectly send the monitoring information to the communication device through a monitoring device specified in the Bluetooth MESH topology network.

3. The intelligent farming system of claim 2, wherein the communication device comprises a communication module and a second bluetooth module;

the second bluetooth module is configured to receive monitoring information of each monitoring device sent by the bluetooth MESH topology network, and transmit the monitoring information to the communication module, where the second bluetooth module is of the same type as the first bluetooth module;

and the communication module is used for sending the monitoring information of each monitoring device to the server.

4. The intelligent aquaculture system of claim 1 wherein the server is specifically configured to compare the monitoring information with a preset parameter range, determine that the monitoring information is abnormal when it is determined that the monitoring information exceeds the preset parameter range, and generate an alarm prompt, wherein the alarm prompt includes a monitoring device identifier corresponding to the monitoring information;

and sending the alarm prompt to the culture management terminal in a form of short message, telephone or application program popup.

5. The intelligent aquaculture system of claim 4 wherein the aquaculture management terminal is further configured to send, in response to detecting a query operation command of a user, the query operation command to the server, wherein the query operation command includes a monitoring device identifier;

and the server is used for receiving the query operation instruction, querying the breeding environment information corresponding to the monitoring equipment identifier and sending a query result to the breeding management terminal.

6. The intelligent farming system of claim 2, wherein the monitoring device further comprises: the device comprises a processing module, a buzzer and an indicator light;

the processing module is used for comparing the monitoring information with a preset parameter range, and sending a starting instruction to the buzzer and a color change instruction to the indicator light when the monitoring information is determined to be abnormal when the monitoring information is determined to exceed the preset parameter range;

the buzzer is used for giving out an alarm sound according to the opening instruction;

the indicator light is used for converting the light into a specified color according to the color change instruction;

and the monitoring equipment is also used for adding an abnormal state label to the abnormal monitoring information and then sending the abnormal monitoring information to the server through the communication equipment.

7. The intelligent aquaculture system of claim 6 wherein the server is further configured to generate an alarm prompt according to the monitoring information added with the abnormal status label, wherein the alarm prompt includes a monitoring device identifier corresponding to the monitoring information;

and sending the alarm prompt to the culture management terminal in a form of short message, telephone or application program popup.

8. The intelligent aquaculture system of claim 6 wherein the monitoring device further comprises a first power module for powering the first Bluetooth module, the temperature sensor, the humidity sensor, the infrared sensor, the light sensor, the processing module, the buzzer, and the indicator light.

9. The intelligent farming system of claim 2, wherein each of the predetermined area ranges corresponds to a farming area.

10. The intelligent farming system of claim 3 wherein the communication device further comprises a second power module for powering the communication module and the second Bluetooth module.

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