CN210112056U - Intelligent poultry breeding device based on Internet of things - Google Patents

Abstract

The utility model discloses a birds intelligence breeding device based on thing networking, based on thing networking and automatic control system, carry out data acquisition and transmit for control chip and then control various auxiliary assembly and realize the temperature through all kinds of environmental sensor, humidity, illumination, the fodder is put in, intelligent ground birds such as excrement and urine exceeds standard and reports an emergency and asks for help or increased vigilance breed the management, can monitor birds gait action through infrared two spectral network camera and behavioral analysis chip, effectively monitor the epidemic disease condition of birds, and then in time discover sick poultry, reduce epidemic disease infection scope and reduce economic loss, this birds intelligence breeding device can also realize birds product safety and trace to the source, all kinds of equipment in remote control plant, breed data high in the clouds storage etc, effectively solved and be difficult to effectively prevent and control the problem that the poultry was bred the epidemic disease and takes place and guarantee birds product safety production at present.

Description

Intelligent poultry breeding device based on Internet of things

Technical Field

The utility model relates to an intelligent control device field especially relates to a poultry intelligence breeding device based on thing networking.

Background

As poultry breeding industry of national animal husbandry pillar industry is concerned all the time, in recent years, due to the continuous improvement of breeding technology and the influence of new economic forms, poultry breeding in China has been moved from the original scattering to the way of large-scale, intensification and industrialization, with the development of poultry breeding industry, poultry safety becomes a problem which cannot be ignored, in recent years, food safety problems are frequent, consumers have a serious trust cris to poultry breeding industry, poultry breeding epidemic diseases are not in place to be prevented and controlled, production processes are not standard, infrastructure laggard and the like, and the poultry breeding epidemic diseases are directly difficult to be effectively prevented and controlled and poultry product safety production is guaranteed.

SUMMERY OF THE UTILITY MODEL

The utility model adopts the following technical scheme:

an intelligent poultry breeding device based on the Internet of things comprises: the system comprises a front-end behavior analysis unit 1, a traceability terminal unit 2, an intelligent cultivation hardware unit 3, a cloud storage monitoring unit 4, a remote control unit 5 and a wireless router 6, wherein the front-end behavior analysis unit 1, the traceability terminal unit 2, the intelligent cultivation hardware unit 3, the cloud storage monitoring unit 4, the remote control unit 5 and the wireless router 6 are electrically connected;

the front-end behavior analysis unit 1 includes: the system comprises a first infrared dual-spectrum network camera 11, a second infrared dual-spectrum network camera 12, an exchanger 13, an analysis chip 14, a first WiFi module 15 and the first infrared dual-spectrum network camera 11, wherein the second infrared dual-spectrum network camera 12 is electrically connected with the exchanger 13 through an Ethernet port, the exchanger 13 is electrically connected with the analysis chip 14, and the analysis chip 14 is electrically connected with the first WiFi module 15 through a USB port;

the tracing terminal unit 2 includes: a first RFID hand-held terminal 21, a second RFID hand-held terminal 22, a third RFID hand-held terminal 23;

the intelligent culture hardware unit 3 comprises a temperature sensor 301, a humidity sensor 302, an illumination intensity sensor 303, an ammonia gas concentration sensor 304 and CO₂Concentration sensor 305, H₂S concentration sensor 306, main controller chip 307, first IGBT power regulation module 308, speed regulation fan 309, second WIFI module 310, 4G module 311, first relay module 312, second relay module 313, third relay module 314, pulse water meter 315, second IGBT power regulation module 316, first Zigbee pass-through module 317, baking lamp 318, alarm 312-1, first fan 312-2, second fan 312-3, first illumination 313-1, second illumination 313-2, third illumination 313-3, first wet curtain 314-1, second wet curtain 314-2, first heater 314-3, second heater 314-4, temperature sensor 301, humidity sensor 302, illumination intensity sensor 303, ammonia concentration sensor 304, CO concentration sensor₂Concentration sensor 305, H₂The S concentration sensor 306 is electrically connected with a main controller chip 307, a first IGBT power adjusting module 308 is electrically connected with the main controller chip 307 through a PWM port, the first IGBT power adjusting module 308 is electrically connected with a speed regulation fan 309, a second WiFi module 310 is electrically connected with the main controller chip 307 through a USB port, a 4G module 311 is electrically connected with the main controller chip 307 through a PCIE port, a first relay module 312, a second relay module 313, a third relay module 314 is electrically connected with the main controller chip 307 through an SPI port, an alarm 312-1, a first fan 312-2, a second fan 312-3 is electrically connected with the first relay module 312, a first illumination 313-1, a second illumination 313-2, a third illumination 313-3 is electrically connected with the second relay module 313, a first wet curtain 314-1, a second wet curtain 314-2, a third wet curtain 314-3, The first heater 314-3 and the second heater 314-4 are electrically connected with the third relay module 314, the pulse water meter 315 is electrically connected with the main controller chip 307 through GPIO ports, the second IGBT power adjusting module 316 is electrically connected with the main controller chip 307 through PWM ports,the second IGBT power adjusting module 316 is connected to the baking lamp 318, and the first Zigbee transparent module 317 is electrically connected to the main controller chip 307 through a UART port;

the cloud storage monitoring unit 4 includes: cloud servers 41, 4G base stations 42;

the remote control unit 5 includes: the system comprises a second Zigbee transparent transmission module 51, a remote control chip 52, a fourth relay module 53, a first contactor 54, a second contactor 55, a third contactor 56, a window opener 57, a material tower 58 and a roller shutter 59, wherein the second Zigbee transparent transmission module 51 is electrically connected with the remote control chip 52 through a UART port, the fourth relay module 53 is electrically connected with the remote control chip 52 through an SPI port, the first contactor 54, the second contactor 55, the third contactor 56 is electrically connected with the fourth relay module 53, the window opener 57 is electrically connected with the first contactor 54, the material tower 58 is electrically connected with the second contactor 55, and the roller shutter 59 is electrically connected with the third contactor 56;

the first Zigbee transparent module 317 is electrically connected to the second Zigbee transparent module 51, the first WiFi module 15 and the second WiFi module 310 are electrically connected to the wireless router 6, and the 4G module 311 is electrically connected to the 4G base station 42.

Further, the type of the analysis chip 14 can be Freescale IMX8M, the type of the main controller chip 307 can be Freescale IMX6Q, the type of the remote control chip 52 can be STM32F103ZET6, the types of the temperature sensor 301 and the humidity sensor 302 can be RS-WS-NO1-2-9 of the Minaridae, the type of the illumination intensity sensor 303 can be RS-GZ-2-20W of the Minaridae, and the type of the ammonia concentration sensor 304 can be intelligent ZZ-S-NH3-A, CO₂The concentration sensor 305 may be of the type Intelligent ZZ-S-CO2-A, H₂The model of the S concentration sensor 306 can be ECS000265 of Intelligent science, the model of the 4G module 311 can be ME909S-821 of Huashi, and the models of the first infrared dual-spectrum network camera 11 and the second infrared dual-spectrum network camera 12 can be DS-2TD2836 of Haekawa Wenwei.

Further, the electrical connection may be a direct coupling, an indirect coupling, an electrical wire connection, or a wireless transmission connection.

The embodiment of the utility model provides a following beneficial effect has:

the embodiment of the utility model provides a birds intelligence breeding device based on thing networking, based on thing networking and automatic control system, carry out data acquisition and transmit for control chip and then control various auxiliary assembly and realize the temperature through all kinds of environmental sensor, humidity, illumination, the fodder is put in, intelligent ground birds such as excrement and urine exceeds standard and reports an emergency and asks for help or increased vigilance breed the management, can monitor birds gait action through infrared two spectral network camera and behavioral analysis chip, effectively monitor the epidemic disease condition of birds, and then in time discover the sick poultry, reduce epidemic disease infection scope and reduce economic loss, this birds intelligence breeding device can also realize birds product safety tracing to the source, all kinds of equipment in remote control plant, breed data high in the clouds storage etc., effectively solved and be difficult to effectively prevent and control the problem that the poultry breeding epidemic disease takes place and guarantee birds product safety production at present.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is the embodiment of the utility model provides a birds intelligence breeding device's structure chart based on thing networking.

Detailed Description

The embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

It should be understood that the described embodiments are only some embodiments of the invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1, the figure shows a structure diagram of an intelligent poultry farming device based on the internet of things, and the connection between the two devices shown in the figure can be direct coupling, indirect coupling, electric wire connection or wireless transmission connection relation, and the like.

The embodiment of the utility model provides a pair of poultry intelligence breeding device based on thing networking, include: the system comprises a front-end behavior analysis unit 1, a traceability terminal unit 2, an intelligent cultivation hardware unit 3, a cloud storage monitoring unit 4, a remote control unit 5 and a wireless router 6, wherein the front-end behavior analysis unit 1, the traceability terminal unit 2, the intelligent cultivation hardware unit 3, the cloud storage monitoring unit 4, the remote control unit 5 and the wireless router 6 are electrically connected;

the front-end behavior analysis unit 1 includes: the system comprises a first infrared dual-spectrum network camera 11, a second infrared dual-spectrum network camera 12, an exchanger 13, an analysis chip 14, a first WiFi module 15 and the first infrared dual-spectrum network camera 11, wherein the second infrared dual-spectrum network camera 12 is electrically connected with the exchanger 13 through an Ethernet port, the exchanger 13 is electrically connected with the analysis chip 14, and the analysis chip 14 is electrically connected with the first WiFi module 15 through a USB port;

the tracing terminal unit 2 includes: a first RFID hand-held terminal 21, a second RFID hand-held terminal 22, a third RFID hand-held terminal 23;

the intelligent culture hardware unit 3 comprises a temperature sensor 301, a humidity sensor 302, an illumination intensity sensor 303, an ammonia gas concentration sensor 304 and CO₂Concentration sensor 305, H₂S concentration sensor 306, main controller chip 307, first IGBT power regulation module 308, speed regulation fan 309, second WIFI module 310, 4G module 311, first relay module 312, second relay module 313, third relay module 314, pulse water meter 315, second IGBT power regulation module 316, first Zigbee transparent transmission module 317, baking lamp 318, alarm 312-1, first fan 312-2, second fan 312-3, first illumination 313-1, second illumination 313-2, third illumination 313-3, first wet curtain 314-1, second wet curtain 314-2, first heater 314-3, second heater 314-4, temperature sensor 301, humidity sensor 302, illumination intensity sensor 303, ammonia concentration sensor 304, CO concentration sensor₂Concentration sensor 305, H₂The S concentration sensor 306 is electrically connected with a main controller chip 307, and the first IGBT power adjusting module 308 is electrically connected with the main controller chip307 is electrically connected through a PWM port, a first IGBT power adjusting module 308 is electrically connected with a speed regulation fan 309, a second WiFi module 310 is electrically connected with a main controller chip 307 through a USB port, a 4G module 311 is electrically connected with the main controller chip 307 through a PCIE port, a first relay module 312, a second relay module 313, a third relay module 314 is electrically connected with the main controller chip 307 through an SPI port, an alarm 312-1, a first fan 312-2, a second fan 312-3 is electrically connected with the first relay module 312, a first illumination 313-1, a second illumination 313-2, a third illumination 313-3 is electrically connected with the second relay module 313, a first wet curtain 314-1, a second wet curtain 314-2, a first heater 314-3, a second heater 314-4 is electrically connected with the third relay module 314, the pulse water meter 315 is electrically connected with the main controller chip 307 through a GPIO port, the second IGBT power adjusting module 316 is electrically connected with the main controller chip 307 through a PWM port, the second IGBT power adjusting module 316 is connected with the baking lamp 318, and the first Zigbee transparent transmission module 317 is electrically connected with the main controller chip 307 through a UART port;

the cloud storage monitoring unit 4 includes: cloud servers 41, 4G base stations 42;

the remote control unit 5 includes: the system comprises a second Zigbee transparent transmission module 51, a remote control chip 52, a fourth relay module 53, a first contactor 54, a second contactor 55, a third contactor 56, a window opener 57, a material tower 58 and a roller shutter 59, wherein the second Zigbee transparent transmission module 51 is electrically connected with the remote control chip 52 through a UART port, the fourth relay module 53 is electrically connected with the remote control chip 52 through an SPI port, the first contactor 54, the second contactor 55, the third contactor 56 is electrically connected with the fourth relay module 53, the window opener 57 is electrically connected with the first contactor 54, the material tower 58 is electrically connected with the second contactor 55, and the roller shutter 59 is electrically connected with the third contactor 56;

the first Zigbee transparent module 317 is electrically connected to the second Zigbee transparent module 51, the first WiFi module 15 and the second WiFi module 310 are electrically connected to the wireless router 6, and the 4G module 311 is electrically connected to the 4G base station 42.

Preferably, the analysis chip 14 is of the type IMX8M available from Freescale, the main controller chip 307 is of the type IMX6Q available from Freescale, and the remote control chip 52 is of the typeCan be STM32F103ZET6, the temperature sensor 301 and the humidity sensor 302 can be RS-WS-NO1-2-9 of Mindaliaceae, the illumination intensity sensor 303 can be RS-GZ-2-20W of Mindaliaceae, and the ammonia concentration sensor 304 can be ZZ-S-NH3-A, CO of Zhize₂The concentration sensor 305 may be of the type Intelligent ZZ-S-CO2-A, H₂The model of the S concentration sensor 306 can be ECS000265 of Intelligent science, the model of the 4G module 311 can be ME909S-821 of Huashi, and the models of the first infrared dual-spectrum network camera 11 and the second infrared dual-spectrum network camera 12 can be DS-2TD2836 of Haekawa Wenwei.

Preferably, the electrical connection may be a direct coupling, an indirect coupling, an electrical wire connection, or a wireless transmission connection.

The embodiment of the utility model provides a birds intelligence breeding device based on thing networking, based on thing networking and automatic control system, carry out data acquisition and transmit for control chip and then control various auxiliary assembly and realize the temperature through all kinds of environmental sensor, humidity, illumination, the fodder is put in, intelligent ground birds such as excrement and urine exceeds standard and reports an emergency and asks for help or increased vigilance breed the management, can monitor birds gait action through infrared two spectral network camera and behavioral analysis chip, effectively monitor the epidemic disease condition of birds, and then in time discover the sick poultry, reduce epidemic disease infection scope and reduce economic loss, this birds intelligence breeding device can also realize birds product safety tracing to the source, all kinds of equipment in remote control plant, breed data high in the clouds storage etc., effectively solved and be difficult to effectively prevent and control the problem that the poultry breeding epidemic disease takes place and guarantee birds product safety production at present.

It should be noted that, in the present specification, all the embodiments are described in a related manner, and the same and similar parts among the embodiments are referred to each other, and each embodiment focuses on the differences from the other embodiments. Moreover, in this document, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (3)

1. The utility model provides a birds intelligence breeding device based on thing networking which characterized in that includes: the system comprises a front-end behavior analysis unit (1), a traceability terminal unit (2), an intelligent cultivation hardware unit (3), a cloud storage monitoring unit (4), a remote control unit (5) and a wireless router (6), wherein the front-end behavior analysis unit (1), the traceability terminal unit (2), the intelligent cultivation hardware unit (3), the cloud storage monitoring unit (4), the remote control unit (5) and the wireless router (6) are electrically connected;

the front-end behavior analysis unit (1) includes: the system comprises a first infrared dual-spectrum network camera (11), a second infrared dual-spectrum network camera (12), a switch (13), an analysis chip (14), a first WiFi module (15) and the first infrared dual-spectrum network camera (11), wherein the second infrared dual-spectrum network camera (12) is electrically connected with the switch (13) through an Ethernet port, the switch (13) is electrically connected with the analysis chip (14), and the analysis chip (14) is electrically connected with the first WiFi module (15) through a USB port;

the tracing terminal unit (2) comprises: a first RFID handheld terminal (21), a second RFID handheld terminal (22) and a third RFID handheld terminal (23);

the intelligent culture hardware unit (3) comprises a temperature sensor (301) and a humidity sensorA degree sensor (302), an illumination intensity sensor (303), an ammonia gas concentration sensor (304), and CO₂Concentration sensor (305), H₂The intelligent control system comprises an S concentration sensor (306), a main controller chip (307), a first IGBT power regulation module (308), a speed regulation fan (309), a second WiFi module (310), a 4G module (311), a first relay module (312), a second relay module (313), a third relay module (314), a pulse water meter (315), a second IGBT power regulation module (316), a first Zigbee transparent transmission module (317), a baking lamp (318), an alarm (312-1), a first fan (312-2), a second fan (312-3), first illumination (313-1), second illumination (313-2), third illumination (313-3), a first wet curtain (314-1), a second wet curtain (314-2), a first heater (314-3), a second heater (314-4), a temperature sensor (301), A humidity sensor (302), an illumination intensity sensor (303), an ammonia gas concentration sensor (304), and CO₂Concentration sensor (305), H₂The S concentration sensor (306) is electrically connected with a main controller chip (307), a first IGBT power adjusting module (308) is electrically connected with the main controller chip (307) through a PWM port, a first IGBT power adjusting module (308) is electrically connected with a speed regulation fan (309), a second WiFi module (310) is electrically connected with the main controller chip (307) through a USB port, a 4G module (311) is electrically connected with the main controller chip (307) through a PCIE port, a first relay module (312), a second relay module (313), a third relay module (314) is electrically connected with the main controller chip (307) through an SPI port, an alarm (312-1), a first fan (312-2), a second fan (312-3) is electrically connected with the first relay module (312), a first lighting (313-1), a second lighting (313-2), a third lighting (313-3) is electrically connected with the second relay module (313), the first wet curtain (314-1), the second wet curtain (314-2), the first heater (314-3) and the second heater (314-4) are electrically connected with the third relay module (314), the pulse water meter (315) is electrically connected with the main controller chip (307) through a GPIO port, the second IGBT power adjusting module (316) is electrically connected with the main controller chip (307) through a PWM port, the second IGBT power adjusting module (316) is connected with the baking lamp (318), and the first Zigbee transparent transmission module (317) is electrically connected with the main controller chip (307) through a UART port;

the cloud storage monitoring unit (4) comprises: a cloud server (41) and a 4G base station (42);

the remote control unit (5) comprises: the device comprises a second Zigbee transparent transmission module (51), a remote control chip (52), a fourth relay module (53), a first contactor (54), a second contactor (55), a third contactor (56), a window opener (57), a material tower (58) and a roller shutter machine (59), wherein the second Zigbee transparent transmission module (51) is electrically connected with the remote control chip (52) through a UART port, the fourth relay module (53) is electrically connected with the remote control chip (52) through an SPI port, the first contactor (54), the second contactor (55), the third contactor (56) is electrically connected with the fourth relay module (53), the window opener (57) is electrically connected with the first contactor (54), the material tower (58) is electrically connected with the second contactor (55), and the roller shutter machine (59) is electrically connected with the third contactor (56);

the first Zigbee transparent transmission module (317) is electrically connected with the second Zigbee transparent transmission module (51), the first WiFi module (15) and the second WiFi module (310) are electrically connected with the wireless router (6), and the 4G module (311) is electrically connected with the 4G base station (42).

2. The intelligent poultry breeding device based on the internet of things of claim 1, wherein the type of the analysis chip (14) can be Freescale IMX8M, the type of the main controller chip (307) can be Freescale IMX6Q, the type of the remote control chip (52) can be STM32F103ZET6, the types of the temperature sensor (301) and the humidity sensor (302) can be Daren Kernel RS-WS-NO1-2-9, the type of the illumination intensity sensor (303) can be Daren Kernel RS-GZ-2-20W, and the type of the ammonia concentration sensor (304) can be intelligent ZZ-S-NH3-A, CO₂The concentration sensor (305) can be intelligent ZZ-S-CO₂-A、H₂The model of the S concentration sensor (306) can be ECS000265 of intelligent science, the model of the 4G module (311) can be ME909S-821 of Huashi, and the models of the first infrared dual-spectrum network camera (11) and the second infrared dual-spectrum network camera (12) can be DS-2TD2836 of Haekawei.

3. The intelligent poultry farming device based on the internet of things of claim 1, wherein the electrical connection can be a direct coupling, an indirect coupling, an electrical wire connection or a wireless transmission connection.