CN212813551U - Intelligent monitoring management system that agricultural poultry was used - Google Patents

Abstract

The utility model discloses an intelligent monitoring management system for agricultural animal husbandry, which comprises a position monitoring device, a feeding monitoring mechanism and a background monitoring unit, wherein the position monitoring device comprises a wearing ring, a GPS module, a GSM module and a first singlechip; the feeding monitoring mechanism comprises a limiting rail, a feed storage box, a feed trough, a water inlet pipe, a drinking trough, a drain pipe, a weighing platform and a second single chip microcomputer, wherein an electronic scale is installed at the bottom of the feed trough, and a water level sensor, a turbidity detector and an organic matter concentration detector are arranged in the drinking trough; the first single chip microcomputer and the second single chip microcomputer are in signal connection with the background monitoring unit. Through the arrangement of the position monitoring device, different livestock can be numbered, and the positions of the livestock can be conveniently determined to avoid loss; the feeding monitoring mechanism can ensure that the feed and drinking water supply of the livestock meets the growth requirement of the livestock and simultaneously ensures the drinking water quality; through position monitoring device with feed and eat monitoring mechanism and can carry out effective control to the weight of different livestock.

Description

Intelligent monitoring management system that agricultural poultry was used

Technical Field

The utility model relates to an agricultural poultry detects technical field, specific intelligent monitoring management system that agricultural poultry used that says so.

Background

Due to the continuous development of agricultural level, large-scale livestock breeding is also becoming the mainstream of breeding industry more and more, and when the large-scale livestock breeding is carried out because livestock are numerous, workers can hardly carry out limited supervision on the livestock. Therefore, an intelligent monitoring and management system which is convenient for numbering livestock to monitor the position and the weight of each livestock and ensure that the feed and drinking water supply of the livestock is qualified is necessary to be designed.

SUMMERY OF THE UTILITY MODEL

To the above-mentioned weak point that exists among the prior art, the utility model aims at providing a convenient number each livestock position in order to control, weight and guarantee the qualified intelligent monitoring management system of its fodder, drinking water supply to the livestock.

The utility model discloses a realize that the technical scheme that above-mentioned purpose adopted is: an intelligent monitoring and management system for agricultural and livestock raising comprises a position monitoring device, a feeding monitoring mechanism and a background monitoring unit,

the position monitoring device comprises a wearing ring, a GPS module, a GSM module and a first single chip microcomputer, wherein the GPS module, the GMS module and the first single chip microcomputer are all arranged on the wearing ring, the wearing ring is worn on the body of each cultured livestock, and the GPS module and the GSM module are in signal connection with the first single chip microcomputer;

the feeding monitoring mechanism comprises limiting handrails, a feed storage box, a trough, a water inlet pipe, a trough, a drain pipe, a weighing platform and a second single chip microcomputer, the size of each limiting handrail is limited to allow only one livestock to exist independently, the feed storage box, the trough and the trough are fixedly mounted on the limiting handrails, the feed storage box is communicated with the trough through the feed pipe, a first electronic switch valve is mounted on the feed pipe, an electronic scale is mounted at the bottom of the trough, the water inlet pipe is arranged above the trough and is communicated with the trough through a second electronic switch valve, the drain pipe is arranged below the trough and is communicated with the trough through a third electronic switch valve, a water level sensor, a turbidity detector and an organic matter concentration detector are arranged in the trough, and the weighing platform, the first electronic switch valve, the trough and the second single chip microcomputer are arranged on the trough The electronic scale, the second electronic switch valve, the third electronic switch valve, the water level sensor, the turbidity detector and the organic matter concentration detector are in signal connection with the first single chip microcomputer;

the first single chip microcomputer is in signal connection with the background monitoring unit through the GSM module, the second single chip microcomputer is in signal connection with the background monitoring unit, and the background monitoring unit is used for carrying out unified management on detection data of the position monitoring device and the feeding monitoring mechanism.

Furthermore, among the position monitoring device, its serial number of GSM module to wearing to different livestock is different, and the GSM module of different serial numbers is numbered the livestock and is distinguished, the geographical position of livestock is confirmed and is transmitted position information to first singlechip to the GPS module, controls the GSM module after first singlechip analysis and processing and sends position information, serial number to backstage monitoring unit.

Further, a GSM antenna and a GPS antenna are further installed on the position monitoring device, and the GSM antenna and the GPS antenna are respectively connected with the corresponding GSM module and the corresponding GPS module.

Further, the weighing platform is connected with the second single chip microcomputer through signals, livestock weight signals detected by the weighing platform are transmitted to the second single chip microcomputer, and the livestock weight is monitored.

Furthermore, first electronic switch valve, electronic scale and second singlechip signal connection, the electronic scale detects the weight of surplus fodder in the manger and will detect data transmission to the second singlechip, the second singlechip controls first electronic switch valve according to the surplus fodder weight that detects, opens first electronic switch valve when surplus fodder weight is less than the specified value and discharges into the manger with fodder in the fodder storage box, at the in-process of discharging the fodder, closes first electronic switch valve when surplus fodder quality is higher than the specified value and stops discharging the fodder.

Furthermore, the water level sensor, the turbidity detector, the organic matter concentration detector, the second electronic switch valve and the third electronic switch valve are in signal connection with the second single chip microcomputer, detected data are transmitted to the second single chip microcomputer by the water level sensor, the turbidity detector and the organic matter concentration detector, the on-off states of the second electronic switch valve and the third electronic switch valve are controlled by the second single chip microcomputer, when the water level sensor detects that the water level in the drinking trough is lower than a specific value, the second electronic switch valve is opened to enable the water level in the drinking trough to rise until the water level is higher than the specific value, and when the turbidity detector and the organic matter concentration detector detect that the turbidity of the water body in the drinking trough and the organic matter concentration are higher than the specific value, the third electronic switch valve is opened to discharge the water and then the second electronic switch valve is.

Further, the feeding monitoring mechanism further comprises a monitoring camera, the monitoring camera is in data connection with the second single chip microcomputer and transmits monitoring data to the background monitoring unit, and the livestock which is eating and drinking water is subjected to video monitoring.

Furthermore, the background monitoring unit comprises a display screen, a computer host and a first wireless communication module, the computer host is in signal connection with the display screen and the first wireless communication module, the second single chip microcomputer is connected with a second wireless communication module, and the first wireless communication module is in data connection with the GSM module and the second wireless communication module.

The utility model has the advantages that: through the arrangement of the position monitoring device, different livestock can be numbered, and the positions of the livestock can be conveniently determined to avoid loss; the feeding monitoring mechanism can ensure that the feed and drinking water supply of the livestock meets the growth requirement of the livestock and simultaneously ensures the drinking water quality; through position monitoring device with feed and eat monitoring mechanism and can carry out effective control to the weight of different livestock.

Drawings

FIG. 1 is a schematic diagram of the connection and data and signal transmission of various devices in the present application;

fig. 2 is a schematic diagram of the feeding monitoring mechanism in the present application.

In the figure: 1 position monitoring device, 2 feed and eat monitoring mechanism, 3 backstage monitoring units, 4GPS module, 5GSM module, 6 first singlechip, 7 spacing railing, 8 fodder storage box, 9 manger, 10 inlet tubes, 11 trough, 12 drain pipes, 13 platform of weighing, 14 second singlechip, 15 first electronic switch valve, 16 electronic scale, 17 second electronic switch valve, 18 third electronic switch valve, 19 level sensor, 20 turbidity detector, 21 organic matter concentration detector, 22 surveillance camera head, 23 display screen, 24 computer mainframe, 25 first wireless communication module, 26 second wireless communication module.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1

Referring to fig. 1 and 2, an intelligent monitoring and management system for agricultural and livestock raising comprises a position monitoring device 1, a feeding monitoring mechanism 2, a background monitoring unit 3,

the position monitoring device 1 comprises a wearing ring, a GPS module 4, a GSM module 5 and a first single chip microcomputer 6, wherein the GPS module 4, the GMS module and the first single chip microcomputer 6 are all arranged on the wearing ring, the wearing ring is worn on the body of each cultivated livestock, and the GPS module 4 and the GSM module 5 are in signal connection with the first single chip microcomputer 6;

the feeding monitoring mechanism 2 comprises limit railings 7, a feed storage box 8, a feed trough 9, a water inlet pipe 10, a water trough 11, a water outlet pipe 12, a weighing platform 13 and a second single chip microcomputer 14, wherein the size of each group of limit railings 7 is limited to only allow at least one livestock to exist independently, the feed storage box 8, the feed trough 9 and the water trough 11 are fixedly arranged on the limit railings 7, the feed storage box 8 is communicated with the feed trough 9 through an inlet pipe, a first electronic switch valve 15 is arranged on the inlet pipe, an electronic scale 16 is arranged at the bottom of the feed trough 9, the water inlet pipe 10 is arranged above the water trough 11 and is communicated with the water trough 11 through a second electronic switch valve 17, the water outlet pipe 12 is arranged below the corresponding water trough and is communicated with the water trough 11 through a third electronic switch valve 18, a water level sensor 19, a turbidity detector 20 and an organic matter, the weighing platform 13, the first electronic switch valve 15, the electronic scale 16, the second electronic switch valve 17, the third electronic switch valve 18, the water level sensor 19, the turbidity detector 20 and the organic matter concentration detector 21 are in signal connection with the first single chip microcomputer 6;

the first single chip microcomputer 6 is in signal connection with the background monitoring unit 3 through the GSM module 5, the second single chip microcomputer 14 is in signal connection with the background monitoring unit 3, and the background monitoring unit 3 is used for performing unified management on detection data of the position monitoring device 1 and the feeding monitoring mechanism 2.

Example 2

The embodiment 1 is further described in detail, in the position monitoring device 1, the GSM modules 5 with different numbers are different in number according to the GSM modules 5 worn by different livestock, the GSM modules 5 with different numbers are used for numbering and distinguishing the livestock, the GPS module 4 determines the geographical position of the livestock and transmits position information to the first single chip microcomputer 6, and the position information and the number are transmitted to the background monitoring unit 3 by controlling the GSM module 5 after being analyzed and processed by the first single chip microcomputer 6;

the position monitoring device 1 is also provided with a GSM antenna and a GPS antenna which are respectively connected with the corresponding GSM module 5 and the corresponding GPS module 4, so that the signal stability of the GSM module 5 and the GPS module 4 is ensured.

Example 3

Referring to fig. 1 and 2, and referring to embodiment 1 in further detail with reference to embodiment 2, the weighing platform 13 is in signal connection with the second single-chip microcomputer 14 to transmit the livestock weight signal detected by the weighing platform 13 to the second single-chip microcomputer 14 to monitor the weight of the livestock, wherein the detection steps include firstly determining the weight value of the weighing platform 13 without the presence of the livestock as N0, then determining the weight value of the livestock before the livestock enters the position-limiting rail 7 for eating or drinking as N1, finally determining the weight value of the livestock after the livestock finishes eating or drinking as N2, determining the weight of the livestock before the eating or drinking as N1-N0, the weight of the livestock after the eating or drinking as N2-N1, and the eating or drinking quality as N2-N1 according to the corresponding position monitoring device 1, constructing a table of the weight of the livestock with specific number, which changes with time, the weight of each livestock can be conveniently monitored;

the first electronic switch valve 15 and the electronic scale 16 are in signal connection with the second single chip microcomputer 14, the electronic scale 16 detects the weight of the residual feed in the feed trough 9 and transmits the detected data to the second single chip microcomputer 14, the second single chip microcomputer 14 controls the first electronic switch valve 15 according to the detected weight of the residual feed, when the weight of the residual feed is smaller than a specific value, the first electronic switch valve 15 is opened to discharge the feed in the feed storage box 8 into the feed trough 9, and in the process of discharging the feed, when the quality of the residual feed is higher than the specific value, the first electronic switch valve 15 is closed to stop discharging the feed, so that the stable supply of the feed is ensured;

the water level sensor 19, the turbidity detector 20, the organic matter concentration detector 21, the second electronic switch valve 17 and the third electronic switch valve 18 are in signal connection with the second single chip microcomputer 14, the water level sensor 19, the turbidity detector 20 and the organic matter concentration detector 21 transmit detected data to the second single chip microcomputer 14 and control the on-off states of the second electronic switch valve 17 and the third electronic switch valve 18 through the second single chip microcomputer 14, when the water level sensor 19 detects that the water level in the drinking trough 11 is lower than a specific value, the second electronic switch valve 17 is opened to enable the water level in the drinking trough 11 to rise until the water level is equal to the specific value, and when the turbidity detector 20 and the organic matter concentration detector 21 detect the turbidity of the water body in the drinking trough 11 and the organic matter concentration is higher than the specific value, the third electronic switch valve 18 is opened to discharge the water and then the second electronic switch valve 17; the real-time supply of drinking water and the cleanness of the drinking water are ensured;

the feeding monitoring mechanism 2 further comprises a monitoring camera 22, the monitoring camera 22 is in data connection with the second single chip microcomputer 14 and transmits monitoring data to the background monitoring unit 3, and the livestock which is eating and drinking water is subjected to video monitoring;

the background monitoring unit 3 comprises a display screen 23, a computer host 24 and a first wireless communication module 25, the computer host 24 is in signal connection with the display screen 23 and the first wireless communication module 25, the second single chip microcomputer 14 is connected with a second wireless communication module 26, and the first wireless communication module 25 is in data connection with the GSM module 5 and the second wireless communication module 26.

Example 4

Please refer to fig. 1 and 2 to further explain the functions and effects that can be achieved by the present application, since the GSM module 5 can number the livestock to be worn, and control the diet of the specific livestock by combining the trough 9 and the electronic scale 16, when the diet quality of the specific number needs to be controlled, the electronic scale 16 and the first electronic switch valve 15 weigh the feed in the trough 9, so as to ensure that the feed amount in the trough 9 is the maximum eating amount of the livestock with the number, and prevent the livestock from eating too much feed.

The beneficial effect of this application is: different livestock can be numbered through the arrangement of the position monitoring device 1, so that the positions of the livestock can be conveniently determined and are prevented from being lost; the feeding monitoring mechanism 2 can ensure that the feed and drinking water supply of the livestock meets the growth requirement and the drinking water quality; the weight of different livestock can be effectively monitored through the position monitoring device 1 and the feeding monitoring mechanism 2.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. The utility model provides an intelligent monitoring management system that agricultural poultry was used which characterized in that: comprises a position monitoring device (1), a feeding monitoring mechanism (2) and a background monitoring unit (3),

the position monitoring device (1) comprises a wearing ring, a GPS module (4), a GSM module (5) and a first single chip microcomputer (6), wherein the GPS module (4), the GMS module and the first single chip microcomputer (6) are all arranged on the wearing ring, the wearing ring is worn on each cultured livestock body, and the GPS module (4) and the GSM module (5) are in signal connection with the first single chip microcomputer (6);

the feeding monitoring mechanism (2) comprises a limiting rail (7), a feed storage box (8), a feed trough (9), a water inlet pipe (10), a drinking trough (11), a water outlet pipe (12), a weighing platform (13) and a second single chip microcomputer (14), wherein the size of the limiting rail (7) is limited to only allow one animal to exist independently, the feed storage box (8), the feed trough (9) and the drinking trough (11) are fixedly mounted on the limiting rail (7), the feed storage box (8) is communicated with the feed trough (9) through the water inlet pipe, a first electronic switch valve (15) is mounted on the water inlet pipe, an electronic scale (16) is mounted at the bottom of the feed trough (9), the water inlet pipe (10) is arranged above the drinking trough (11) and communicated with the drinking trough (11) through a second electronic switch valve (17), the water outlet pipe (12) is arranged below the water trough and is connected with the drinking trough (11) through a third electronic switch valve (18) The water trough (11) is internally provided with a water level sensor (19), a turbidity detector (20) and an organic matter concentration detector (21), and the weighing platform (13), the first electronic switch valve (15), the electronic scale (16), the second electronic switch valve (17), the third electronic switch valve (18), the water level sensor (19), the turbidity detector (20) and the organic matter concentration detector (21) are in signal connection with the first single chip microcomputer (6);

first singlechip (6) pass through GSM module (5) and backstage monitoring unit (3) signal connection, second singlechip (14) and backstage monitoring unit (3) signal connection, backstage monitoring unit (3) are used for carrying out unified management to position monitoring device (1), the detection data of feeding monitoring mechanism (2).

2. The intelligent monitoring and management system for agricultural livestock according to claim 1, characterized in that: in position monitoring device (1), its serial number of GSM module (5) to wearing to different livestock is different, and the GSM module (5) of different serial numbers the livestock and distinguishes, GPS module (4) confirm the geographical position of livestock and transmit positional information to first singlechip (6), through first singlechip (6) analysis processing back control GSM module (5) with positional information, serial number transmission to backstage monitoring unit (3).

3. An intelligent monitoring and management system for agricultural livestock according to claim 2, characterized in that: the position monitoring device (1) is further provided with a GSM antenna and a GPS antenna, and the GSM antenna and the GPS antenna are respectively connected with the corresponding GSM module (5) and the corresponding GPS module (4).

4. An intelligent monitoring and management system for agricultural livestock according to claim 2, characterized in that: the weighing platform (13) is in signal connection with the second single chip microcomputer (14) and transmits livestock weight signals detected by the weighing platform (13) to the second single chip microcomputer (14) to monitor the livestock weight.

5. The intelligent monitoring and management system for agricultural livestock according to claim 4, characterized in that: the feed discharging device is characterized in that the first electronic switch valve (15), the electronic scale (16) and the second single chip microcomputer (14) are in signal connection, the electronic scale (16) detects the weight of the residual feed in the feed trough (9) and transmits detection data to the second single chip microcomputer (14), the second single chip microcomputer (14) controls the first electronic switch valve (15) according to the detected weight of the residual feed, when the weight of the residual feed is smaller than a specific value, the first electronic switch valve (15) is opened to discharge the feed in the feed storage box (8) into the feed trough (9), and when the quality of the residual feed is higher than the specific value, the first electronic switch valve (15) is closed to stop discharging the feed.

6. The intelligent monitoring and management system for agricultural livestock according to claim 5, characterized in that: the water level sensor (19), the turbidity detector (20), the organic matter concentration detector (21), the second electronic switch valve (17), the third electronic switch valve (18) are in signal connection with the second single chip microcomputer (14), the water level sensor (19), the turbidity detector (20) and the organic matter concentration detector (21) transmit detected data to the second single chip microcomputer (14) and control the on-off states of the second electronic switch valve (17) and the third electronic switch valve (18) through the second single chip microcomputer (14), when the water level sensor (19) detects that the water level in the drinking trough (11) is lower than a specific value, the second electronic switch valve (17) is opened to enable the water level in the drinking trough (11) to rise until the water level is lower than the specific value, when the turbidity detector (20) and the organic matter concentration detector (21) detect the turbidity of the water in the drinking trough (11), and when the organic matter concentration is higher than the specific value, the third electronic switch valve (18) is opened to discharge the discharged water and then the The electronic switch valve (17) is filled with water.

7. The intelligent monitoring and management system for agricultural livestock according to claim 6, characterized in that: feed and eat monitoring mechanism (2) and still include surveillance camera head (22), surveillance camera head (22) and second singlechip (14) data connection and transmit monitored data to backstage monitoring unit (3), carry out video monitoring to the livestock that is eating, drinking water well.

8. An intelligent monitoring and management system for agricultural livestock according to claim 7, characterized in that: the background monitoring unit (3) comprises a display screen (23), a computer host (24) and a first wireless communication module (25), the computer host (24) is in signal connection with the display screen (23) and the first wireless communication module (25), the second single chip microcomputer (14) is connected with a second wireless communication module (26), and the first wireless communication module (25) is in data connection with the GSM module (5) and the second wireless communication module (26).

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