CN-224219132-U - Culture fence based on RFID system

Abstract

The utility model relates to the technical field of live pig breeding, in particular to a breeding fence based on an RFID system, which comprises a fence body, an infrared camera, an RFID identification module and a control terminal, wherein the fence body comprises a bottom plate and a fence, a manure leakage hole is formed in the bottom plate, a pig manure cleaning mechanism is arranged on the bottom plate, a trough diverter is arranged on the fence, a main water pipe is arranged at the input end of the diverter, a drinking water device for pigs is respectively arranged at each output end of the diverter, the infrared camera and the infrared camera are arranged on the fence, the infrared camera is positioned above the diverter, the RFID identification module comprises a plurality of groups of detectors and animal tags, the detectors are all arranged on the fence, and the control terminal is connected with the RFID identification module. The utility model can improve the individual identification rate of animals, save labor cost, pre-warn diseases in advance through behavior data, reduce the death rate of live pigs, and simultaneously can quickly and thoroughly clean pig manure.

Inventors

• ZHANG LE
• DU JIE

Assignees

• 澄城县利恒繁育养殖有限公司

Dates

Publication Date

20260512

Application Date

20250418

Claims (7)

1. 1. An RFID system-based farming rail, comprising: the pig manure treatment device comprises a fence body, wherein the fence body comprises a bottom plate (1) and a fence (2), a manure leakage hole (103) is formed in the bottom plate (1), a pig manure cleaning mechanism is arranged on the bottom plate (1), a feeding trough (6) and a flow divider (7) with a plurality of output ports are arranged on the fence (2), a main water pipe (71) is arranged at the input end of the flow divider (7), and a pig drinking bowl (8) is respectively arranged at each output end of the flow divider (7); The infrared camera (9) is arranged on the fence (2), and the infrared camera (9) is positioned above the shunt (7); The RFID identification module comprises detectors (5) and animal tags, the detectors (5) comprise a plurality of groups, and each detector (5) is arranged on the fence (2); and the control terminal is connected with the RFID identification module.
2. 2. The culture fence based on the RFID system according to claim 1, wherein a door opening is formed in the fence (2), a gate (3) for controlling opening and closing of the door opening is slidably arranged on the fence (2), and a driving component A (4) for driving the gate (3) to slide is arranged on the fence (2).
3. 3. The culture fence based on the RFID system according to claim 1, wherein the pig manure cleaning mechanism comprises a carriage (11) and a driving component B, a groove (101) is formed in a bottom plate (1), manure leakage holes (103) are formed in the bottom of the groove (101), two side holes (102) communicated with the groove are symmetrically formed in the side face of the groove (101) in the bottom plate (1), the carriage (11) is slidably arranged in the groove (101), two groups of spray heads (12) are respectively arranged on two sides of the carriage (11), two ends of the carriage (11) are respectively connected with one fixed pipe (13), each spray head (12) is communicated with the fixed pipe (13), the fixed pipes (13) on two sides are respectively extended out along the side holes (102) on the corresponding side and are slidably connected with the corresponding side holes, a water inlet pipe (131) communicated with the fixed pipe (13) is formed in the other fixed pipe (13), an electromagnetic valve (1311) for controlling internal on-off of the water inlet pipe (131) is arranged on the bottom plate (131), the driving component B is arranged on the bottom plate (1) and located outside the fence, and the driving component B is slidably connected with the carriage (11).
4. 4. The culture fence based on the RFID system according to claim 3, wherein the driving assembly B comprises two linear modules B (17) and a controller, the two linear modules B (17) are respectively arranged at two sides of the carriage (11) and are perpendicular to the carriage, the linear modules B (17) are in driving connection with the sliding block (15), the sliding block (15) is movably provided with the fixed block (14), the fixed block (14) is connected with the fixed pipe (13), the sliding block (15) is provided with the torque sensor (16), the detection end of the torque sensor (16) is connected with the fixed block (14), the torque sensor (16) is electrically connected with the controller, and the controller is electrically connected with the linear modules B (17).
5. 5. The RFID system-based cultivation barrier according to claim 4, wherein the water inlet pipe (131) is communicated with the main water pipe (71), a flow valve (711) for controlling the flow rate inside the main water pipe (71) is arranged on the main water pipe (71), the flow valve (711) is arranged between the water inlet of the water inlet pipe (131) and the water inlet of the pig drinking fountain (8), and the flow valve (711) and the electromagnetic valve (1311) are electrically connected with the controller.
6. 6. The cultivation fence based on the RFID system as claimed in claim 5, wherein a mounting groove is arranged on one side of the bottom surface of the groove (101) close to the feeding groove (6), a weighing plate (10) is arranged in the mounting groove, and the weighing plate (10) is electrically connected with the controller.
7. 7. The culture fence based on the RFID system according to claim 1, wherein a plurality of mosquito eradication mechanisms (18) are arranged on the outer wall of the fence (2), each mosquito eradication mechanism (18) comprises a cylindrical pipe (181), black light lamps (182), a high-voltage pulse power grid (183), a material guide pipe (184) and a material receiving box (186), the cylindrical pipe (181) is connected with the fence (2), an air inlet hole (1811) is formed in one side, facing the inside of the fence (2), of the cylindrical pipe (181) on the top of the cylindrical pipe (181), a top cover is arranged on the top of the cylindrical pipe (181), a plurality of black light lamps (182) are annularly arranged at the bottom of the cylindrical pipe around the axis of the top cover, the high-voltage pulse power grid (183) is wrapped outside the black light lamps (182) and connected with the top cover, a material guide hopper is arranged at the bottom of the cylindrical pipe (181), the material guide pipe (184) is communicated with the material discharge end of the material guide hopper, an air outlet hole is formed in one side, far away from the fence (2), an air outlet fan (185) is arranged in the material receiving box (186), one end of the material receiving box (186) is inserted into the material guide pipe (184) and is connected with the air outlet hole (186) in a sliding mode, and the air outlet hole (184) is connected with the material guide box (186) through the air outlet hole (186) is arranged in the material guide pipe is communicated with the material guide box (186).

Description

Culture fence based on RFID system Technical Field The utility model relates to the technical field of live pig breeding, in particular to a breeding fence based on an RFID system. Background Live pig raising usually utilizes the raising fence to feed live pigs in separate fences, and traditional raising fence has simple structure, only has the most basic isolation and feeding functions, and needs to be improved. At present, a farm combining the existing RFID intelligent recognition system is also available, but in the existing farm, the fence is mostly made of metal materials, and the effect is limited due to the fact that the ‌ environment complexity ‌ (such as metal interference and animal activity shielding) and ‌ data depth application are insufficient ‌ in the farm. The Chinese patent with the bulletin number of CN220733943U discloses a live pig breeding fence, which attracts mosquitoes through ultraviolet lamps and kills the attracted mosquitoes through a mosquito killing plate, so that the biting of the mosquitoes to live pigs is reduced, and the aim of reducing the infection disease risk of the live pigs is fulfilled. However, the device still has the defects that the breeding fence is mainly controlled manually, the real-time monitoring function of the live pigs in the breeding process is lacked, the live pigs cannot be accurately and timely treated in a fencing mode, early warning can not be timely carried out when the live pigs are abnormal, and meanwhile the device is lacked in a structure for cleaning the inside of the breeding fence. Disclosure of utility model The utility model aims to solve the problems in the background art and provides a breeding fence based on an RFID system. The breeding fence based on the RFID system comprises a fence body, wherein the fence body comprises a bottom plate and a fence, a manure leakage hole is formed in the bottom plate, a pig manure cleaning mechanism is arranged on the bottom plate, a trough and a flow divider with a plurality of output ports are arranged on the fence, a main water pipe is arranged at the input end of the flow divider, and a drinking fountain for pigs is respectively arranged at each output end of the flow divider; the infrared camera is arranged on the fence and is positioned above the shunt; The RFID identification module comprises detectors and animal tags, the detectors comprise a plurality of groups, and each detector is arranged on the fence; and the control terminal is connected with the RFID identification module. Preferably, a door opening is formed in the fence, a gate for controlling opening and closing of the door opening is arranged on the fence in a sliding mode, and a driving assembly A for driving the gate to slide is arranged on the fence. Preferably, the pig manure cleaning mechanism comprises a sliding frame and a driving component B, wherein a groove is formed in a bottom plate, manure leakage holes are formed in the bottom of the groove, two side holes communicated with the groove are symmetrically formed in the side face of the groove in the bottom plate, the sliding frame is arranged in the groove in a sliding mode, a group of spray heads are respectively arranged on two sides of the sliding frame, two ends of the sliding frame are respectively connected with one fixed pipe, each spray head is communicated with the fixed pipe, the fixed pipes on two sides extend out of the side holes on the corresponding sides respectively and are in sliding connection with the fixed pipes, a port of one fixed pipe is closed, a water inlet pipe communicated with the other fixed pipe is arranged on the other fixed pipe, an electromagnetic valve for controlling on-off of the inside of the fixed pipe is arranged on the water inlet pipe, the driving component B is arranged on the bottom plate and located outside a fence, and the driving component B drives the sliding frame to slide. Preferably, the driving assembly B comprises two linear modules B and a controller, the two linear modules B are respectively arranged on two sides of the sliding frame and are perpendicular to the sliding frame, the linear modules B are in driving connection with the sliding block, the sliding block is movably provided with a fixed block, the fixed block is connected with the fixed pipe, a torque sensor is arranged on the sliding block, the detection end of the torque sensor is connected with the fixed block, the torque sensor is electrically connected with the controller, and the controller is electrically connected with the linear modules B. Preferably, the water inlet pipe is communicated with the main water pipe, the main water pipe is provided with a flow valve for controlling the flow rate inside the main water pipe, the flow valve is positioned between the water inlet of the water inlet pipe and the water inlet of the pig drinking fountain, and the flow valve and the electromagnetic valve are electrically connected with the controller. Preferably,