CN117770142A - Intelligent breeding system based on feed processing - Google Patents

Abstract

The invention discloses an intelligent breeding system based on feed processing, which relates to the technical field of livestock breeding and comprises a containment device, a supply device, a body condition detection device and a controller, wherein a plurality of breeding rooms are arranged in the containment device, and an air monitoring device and an air purifying device are arranged in the containment device. This intelligent farming systems based on feed processing will gather analytical equipment and dress on the animal body, conveniently gather and analyze sweat and blood of animal at any time, realize gathering in real time and managing the animal health of breeding, and the activity condition of livestock in the time in the room can be gathered to the hot spot collection device, body condition detection device has been added, can monitor animal body condition, and provide corresponding nutrition supplement or medicine treatment, can detect the air simultaneously, and provide air purification, make intelligent farming systems can monitor, manage livestock with high efficiency, satisfy the breed demand better.

Description

An intelligent breeding system based on feed processing

Technical field

The invention relates to the technical field of livestock breeding, specifically an intelligent breeding system based on feed processing.

Background technique

Livestock farming refers to the cultivation and reproduction of animals and plants, generally domesticated animals raised by humans, or the physiological functions of wild animals such as deer, musk deer, foxes, minks, otters, and quails, which are artificially raised and bred to convert plant energy such as forage and feed into animal energy to obtain livestock products such as meat, eggs, milk, wool, cashmere, hides, silk, and medicinal materials. The combination of animal farming and feed processing allows the feed to be immediately transported to the corresponding feed breeding area for feeding after processing. At the same time, animal farming is automated to save human resources and increase the efficiency of farming.

For example, publication number CN108207652B discloses an intelligent breeding system based on feed processing, including a confinement device, a storage device, a feed processing device, a transportation device, a monitoring device, a positioning device, a wireless device and a control center, wherein the confinement device includes a breeding shed, a feed trough and a clean water trough, the storage device includes a feed storage bin, a feed channel, a proportioning bin, a proportioning channel, a feed delivery port, a clean water storage bin, a clean water channel and a clean water inlet, the feed processing device includes a stirring device and a heating device, the transportation device includes a placement motor, a transportation baffle, a transportation platform, a transportation motor and a transportation crawler, the monitoring device includes a first camera, a second camera, a water depth detector and a temperature and humidity sensor, the number of the positioning devices is consistent with the number of breeding sheds and is arranged inside the breeding sheds, the wireless device is arranged inside the control center, and the control center is arranged inside the breeding farm management department planned by the breeding farm;

The intelligent breeding system based on feed processing in this patent can realize the automatic matching and delivery of feed, but it lacks intelligent monitoring and management of animals, making it impossible to intelligently manage the delivery of feed according to the animal's own health status, which affects the breeding system. Monitoring and management effects are poor and cannot better meet breeding needs.

Contents of the invention

In view of the shortcomings of the existing technology, the present invention provides an intelligent breeding system based on feed processing, which solves the lack of intelligent monitoring and management of animals, making it impossible to intelligently manage the feeding of feed according to the animal's own health status, and improves the breeding system. The monitoring and management effects of the system are poor and cannot better meet the needs of breeding.

In order to achieve the above objectives, the present invention is realized through the following technical solutions: an intelligent breeding system based on feed processing, including a captive breeding device, a supply device, a body condition detection device and a controller. The captive breeding device is provided with multiple breeding rooms. , an air monitoring device and an air purifying device are provided inside the captive device, the air monitoring device, the air purifying device and the controller are electrically connected, and the body condition detection device and the controller are electrically connected;

The supply device is composed of a feeding trough, a feed bin, a nutrient bin and a water supply bin. The feeding trough is located on the side of the breeding room. The feed bin, nutrient bin, water supply bin and feeding trough are connected through a feeding structure. , the feeding structure and the controller are electrically connected;

The body condition detection device consists of a collection and analysis device, a hotspot collection device and an excrement analysis device. The collection and analysis device is a wearable structure. A sweat collector and a blood collector are arranged on the collection and analysis device. The hotspot collection device is an infrared image camera. There are multiple hotspot collection devices, which are adapted to the enclosure device. The collection and analysis device is worn on the animal, so that the sweat and blood of the animal can be collected and analyzed at any time, thereby realizing real-time collection and management of the physical condition of the farmed animals.

Preferably, the feeding trough includes a feed bin and a clean water tank. There are multiple nutrient bins to facilitate the delivery of animal feed and water sources, and the feeding structure controls the supply. At the same time, multiple nutrient bins can Store different nutrients, such as vitamins, amino acids, iron supplements, etc., so that the supply can be individually controlled according to the needs of livestock to better meet breeding needs.

Preferably, the water supply warehouse includes a water valve, a first water storage tank, a second water storage tank, a first pipe and a second pipe, the water valve is connected to the first water storage tank, and the first water storage tank is connected to the first water storage tank. The second water storage tank is connected through the first pipe and the second pipe, the first water storage tank is higher than the second water storage tank, the first pipe is located below the second pipe, and the The first pipeline is provided with a switch valve, and the second water storage tank is connected with the clean water tank; the second water storage tank is provided with a first liquid level sensor and a second liquid level sensor, and the second liquid level sensor The sensor is located above the first liquid level sensor. When the water level in the second water storage tank is lower than the preset water level of the first liquid level sensor, the first liquid level sensor causes the switch valve to open. , when the water level in the second water storage tank is higher than the preset water level of the second liquid level sensor, the second liquid level sensor causes the switch valve to close. This can ensure that the water level in the clear water tank is maintained at a more convenient position for drinking for a long time.

Preferably, a third liquid level sensor is provided in the second water storage tank, and the third liquid level sensor is located between the first liquid level sensor and the second liquid level sensor. The first water storage tank A water flow sensor is provided at the second pipe. When the water flow sensor is triggered and the water level in the second water storage tank is higher than the preset water level of the second liquid level sensor, the water valve is activated. Closed, when the water flow sensor is not triggered and the water level in the second water storage tank is lower than the third liquid level sensor, the third liquid level sensor causes the water valve to open to facilitate timely flow of water to the water valve. Replenish water in the first water tank.

Preferably, the diameter of the second pipe is larger than the diameter of the first pipe, so that the second water storage tank can be replenished faster, thereby ensuring that the water level of the clean water tank is better maintained.

Preferably, the second water storage tank is provided with a water outlet, and the second water storage tank is also provided with a baffle and a floating block. The baffle is slidably connected to the second water storage tank, and the baffle can Slide along the height direction of the second water storage tank, slide the baffle to open or close the water outlet, the floating block is located in the clean water tank, and the floating block is connected to the baffle, When the water level in the clean water tank is lower than the preset water level, the floating block drives the baffle downward to open the water outlet, thereby ensuring that the water level in the clean water tank is replenished to a position convenient for drinking.

Preferably, the air purification device is provided above the breeding room, and the air purification device includes a fresh air device and a disinfection device. The output end of the fresh air device is provided with an air supply duct, and the disinfection device is a spray structure. The disinfection device is connected to an external disinfection solution configuration bin through pipelines, and the air monitoring device detects the air in the captive device, including but not limited to PM2.5, PM10, harmful organic gas components, etc., and is adapted to the air purification device The spray structure can spray alcohol, disinfectant water or other purifying aerosols in the captive device to realize intelligent management of the ambient air in the captive device.

Preferably, a water quality monitor is provided in the water supply tank, and the water quality monitor is electrically connected to the controller to realize the detection and management of water quality.

Preferably, the collection and analysis device, the hot spot collection device, and the excrement analysis device are all equipped with wireless communication modules to facilitate the transmission of collected information.

Preferably, the controller is composed of an information processing server and an information storage module. The controller is connected to a display module through a wired network. The controller accepts and records all collected and detected information data. At the same time, personnel can display Module to view information and status of the breeding system.

The invention provides an intelligent breeding system based on feed processing. Compared with existing technology, it has the following beneficial effects:

1. This intelligent breeding system based on feed processing sets up air monitoring devices and air purification devices. The air monitoring device detects the air in the captive device, including but not limited to PM2.5, PM10, harmful organic gas components, etc. , and the detection data is managed by the controller. When the control quality value is lower than expected, the air purification device is started and adapted to the spray structure of the disinfection device. Alcohol, disinfectant water or other purifying aerosols can be sprayed in the captive device. At the same time, the fresh air device increases the ventilation effect and realizes intelligent management of the ambient air in the captive device.

2. This intelligent breeding system based on feed processing realizes the supply of feed and water sources from different warehouses by setting up supply devices, feeding troughs and nutrient warehouses, and intelligently manages them by the controller. Multiple nutrient warehouses Different nutrients can be stored, such as vitamins, amino acids, iron supplements, etc., so that the supply can be individually controlled according to the needs of livestock to better meet the needs of breeding.

3. This intelligent breeding system based on feed processing adds a body condition detection device to facilitate the management and detection of animal health by setting up a collection and analysis device, a hotspot collection device and an excrement analysis device, etc., and the collection and analysis device is worn on the animal. , it is convenient to collect and analyze the sweat and blood of animals at any time, and realize real-time collection and management of the physical condition of breeding animals. The hotspot collection device can collect the activities of livestock in the breeding room within a certain period of time, and generate hotspot images for transmission control. At the same time, the excrement analysis device analyzes the animal's excrement, and all animal body condition information is sent to the controller for management and recording, which facilitates the management of individual animal health and facilitates the adaptation of the supply device to provide corresponding drugs.

Description of drawings

Figure 1 is a schematic diagram of the structure of the captive breeding device of the present invention;

Figure 2 is a schematic diagram of the structure of the breeding system of the present invention;

Figure 3 is a schematic diagram of the water supply tank of the present invention.

In the figure: 1-enclosure device, 11-breeding room, 12-air monitoring device, 13-air purification device, 131-fresh air device, 132-disinfection device, 2-supply device, 21-feeding trough, 22-feed warehouse, 23-nutrient warehouse, 24-water supply warehouse, 241-water quality monitor, 242-first water storage tank, 2421-water flow sensor, 243-second water storage tank, 2431-first liquid level sensor, 2432-second liquid level sensor, 2433-third liquid level sensor, 2434-water outlet, 2435-blocking piece, 2436-floating block, 244-first pipeline, 2441-switch valve, 245-second pipeline, 246-water valve, 247-clean water tank, 3-body condition detection device, 31-collection and analysis device, 32-hot spot collection device, 33-excrement analysis device, 4-controller.

Detailed ways

The following will be combined with the drawings in the embodiments of the present invention to clearly and completely describe the technical solutions in the embodiments of the present invention. Obviously, the described embodiments are only part of the embodiments of the present invention, not all of the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by ordinary technicians in this field without creative work are within the scope of protection of the present invention.

In order to make the purpose, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below in conjunction with the drawings in the embodiments of the present application. Obviously, the described embodiments These are part of the embodiments of this application, but not all of them. The components of the embodiments of the present application generally described and illustrated in the figures herein may be arranged and designed in a variety of different configurations.

Therefore, the following detailed description of the embodiments of the application disclosed in the drawings is not intended to limit the scope of the claimed application, but rather to represent selected embodiments of the application. Based on the embodiments in this application, all other embodiments obtained by those of ordinary skill in the art without creative efforts fall within the scope of protection of this application.

It should be noted that, as long as there is no conflict, the embodiments and features in the embodiments of this application can be combined with each other.

It should be noted that similar reference numerals and letters represent similar items in the following figures, therefore, once an item is defined in one figure, it does not need further definition and explanation in subsequent figures.

In the description of the embodiments of the present application, it should be noted that the indicated orientation or positional relationship is based on the orientation or positional relationship shown in the drawings, or the orientation or positional relationship in which the product of this application is commonly placed when used, or the orientation or positional relationship of this application. The orientation or positional relationship commonly understood by those skilled in the art, or the orientation or positional relationship commonly placed when the product of this application is used, is only for the convenience of describing this application and simplifying the description, and does not indicate or imply that the device or component referred to must be Having a specific orientation, being constructed and operating in a specific orientation, and therefore should not be construed as limiting the application. In addition, the terms "first", "second", "third", etc. are only used to distinguish descriptions and shall not be understood as indicating or implying relative importance.

In the description of the embodiments of the present application, it should also be noted that, unless otherwise clearly stated and limited, the terms "setting", "installation" and "connection" should be understood in a broad sense. For example, it can be a fixed connection or a fixed connection. It is a detachable connection or an integral connection; it can be a direct connection or an indirect connection through an intermediate medium. For those of ordinary skill in the art, the specific meanings of the above terms in this application can be understood on a case-by-case basis.

Referring to Figures 1-3, the present invention provides a technical solution: an intelligent breeding system based on feed processing, including a captive breeding device 1, a supply device 2, a body condition detection device 3 and a controller 4. A plurality of breeding rooms 11 are provided in the captive breeding device 1. An air monitoring device 12 and an air purifying device 13 are provided inside the captive breeding device 1. The air monitoring device 12, the air purifying device 13 and the controller 4 are electrically connected. The air purifying device 13 An air purification device 13 is provided above the breeding room 11 and includes a fresh air device 131 and a disinfection device 132. The output end of the fresh air device 131 is provided with an air supply duct. The disinfection device 132 is a spray structure. The disinfection device 132 is connected to an external disinfection liquid configuration warehouse through a pipeline. The body condition detection device 3 is electrically connected to the controller 4. The controller 4 is composed of an information processing server and an information storage module. The controller 4. A display module is connected through a wired network, and the air monitoring device 12 detects the air in the captive device, including but not limited to PM2.5, PM10, harmful organic gas components, etc., and the detection data is managed by the controller 4. When the control quality value is lower than expected, the air purification device 13 is started and adapted to the spray structure of the disinfection device 132. Alcohol, disinfectant water or other purification aerosols can be sprayed in the captive device 1, while the fresh air device 131 is added The ventilation effect realizes intelligent management of the ambient air in the captive breeding device 1.

The supply device 2 is composed of a feeding trough 21, a feed bin 22, a nutrient bin 23 and a water supply bin 24. The feeding trough 21 is located on the side of the breeding room 11. The nutrient bin 22, the nutrient bin 23, the water supply bin 24 and the feeding trough 21 are connected through a feeding structure, and the feeding structure is electrically connected to the controller 4. The feeding tank 21 includes a feed bin and a clean water tank 247, and a plurality of nutrient bins 23 are provided. A water quality monitor 241 is provided in the water supply warehouse 24. The water quality monitor 241 is electrically connected to the controller 4. Feed and water sources are supplied from different warehouses and are intelligently managed by the controller 4. The multiple nutrient warehouses 23 can store different nutrients, such as vitamins, amino acids, iron supplements, etc., so that the supply can be individually controlled according to the needs of livestock to better meet the needs of breeding.

The water supply tank 24 includes a water valve 246, a first water tank 242, a second water tank 243, a first pipe 244 and a second pipe 245. The water valve 246 is connected to the first water tank 242, and the first water tank 242 and the second water tank 243 are connected through the first pipe 244 and the second pipe 245. The diameter of the second pipe 245 is larger than that of the first pipe 244. The first water tank 242 is higher than the second water tank 243. The first pipe 244 is located below the second pipe 245, and a switch valve 2441 is provided on the first pipe 244. The second water tank 243 is connected to the clean water tank 247. The second water tank 243 is provided with a water outlet 2434. The second water tank 243 is also provided with a baffle 2435 and a float 2436. The baffle 2435 is slidably connected to the second water tank 243. The baffle 2435 can slide along the height direction of the second water tank 243. The baffle 2435 is slidable to open or close the water outlet 2434. The float 2436 is located in the clean water tank 247, and the float 2436 is connected to the baffle 2435. When the water level in the clean water tank 247 is lower than the preset water level, the float 2436 drives the baffle 2435 to descend so that the water outlet 2434 is opened.

The first water storage tank 242 is provided with a water flow sensor 2421 for detecting whether water flows through the first water storage tank 242 . The water flow sensor 2421 is located at the connection between the first water storage tank 242 and the second pipe 245 . The second water storage tank 243 is provided with a first liquid level sensor 2431, a second liquid level sensor 2432 and a third liquid level sensor 2433. The second liquid level sensor 2432 is located above the first liquid level sensor 2431. When the water level in the second water storage tank 243 is lower than the preset water level of the first liquid level sensor 2431, the first liquid level sensor 2431 causes the switch valve 2441 to open. , when the water level in the second water storage tank 243 is higher than the preset water level of the second liquid level sensor 2432, the second liquid level sensor 2432 closes the switch valve 2441. The third liquid level sensor 2433 is located between the first liquid level sensor 2431 and the second liquid level sensor 2432 . When the water flow sensor 2421 is triggered and the water level in the second water storage tank 243 is higher than the preset water level of the second liquid level sensor 2432, the water valve 246 is closed. When the water flow sensor 2421 is not triggered and the second water storage tank 243 When the water level inside is lower than the third liquid level sensor 2433, the third liquid level sensor 2433 causes the water valve 246 to open.

The first water storage tank 242 and the second water storage tank 243 work as follows: initially, the first water storage tank 242 and the second water storage tank 243 are both empty. At this time, the water valve 246 is opened, and water enters the first water storage tank 242. Then it can directly flow into the second water storage tank 243 from the first pipe 244, and then flow into the clean water tank 247 from the water outlet 2434. When the water level in the clean water tank 247 reaches the preset position, the water begins to flow into the second water storage tank 243. store. As the water level in the second water storage tank 243 rises, until the water level in the second water storage tank 243 is higher than the preset water level of the second liquid level sensor 2432, the second liquid level sensor 2432 closes the switch valve 2441. At this time, the second liquid level sensor 2432 closes the switch valve 2441. The water level in the water storage tank 243 remains unchanged, and water begins to be stored in the first water storage tank 242. As the water level in the first water storage tank 242 rises, when water flows from the second pipe 245 into the second water storage tank 243, and the water level in the second water storage tank 243 is still higher than the preset water level of the second liquid level sensor 2432 When, the second liquid level sensor 2432 causes the water valve 246 to close. Later, when the water level in the clean water tank 247 decreases, the water in the second water storage tank 243 will flow into the clean water tank 247, causing the water level in the second water storage tank 243 to decrease. When the water level in the second water storage tank 243 drops below the preset water level of the third liquid level sensor 2433, the third liquid level sensor 2433 will cause the water valve 246 to open again. At this time, the water in the first water storage tank 242 can Slowly enter the second water storage tank 243 through the second pipe 245. If the water level in the clean water tank 247 drops too fast at this time, the water level in the second water storage tank 243 will continue to drop. When the water level in the second water storage tank 243 drops below the preset water level of the first liquid level sensor 2431 , the first liquid level sensor 2431 will open the switch valve 2441 again. At this time, water will enter the second water storage tank 243 along the first pipe 244 and the second pipe 245 respectively, thereby quickly replenishing the second water storage tank 243.

The body condition detection device 3 is composed of a collection and analysis device 31 , a hot spot collection device 32 and an excrement analysis device 33 . The collection and analysis device 31 is a wearable structure. The collection and analysis device 31 is provided with a sweat collector and a blood collector. The hotspot collection device 32 is an infrared image camera. There are multiple hotspot collection devices 32 and they are adapted to the captivity device 1 . The collection and analysis device 31, the hotspot collection device 32, and the excrement analysis device 33 are all equipped with wireless communication modules. The body condition detection device 3 is added to facilitate the management and detection of animal health. The collection and analysis device 31 is worn on the animal for convenience. The sweat and blood of animals can be collected and analyzed at any time to achieve real-time collection and management of the physical condition of farmed animals. And the hotspot collection device 32 can collect the activities of livestock in the breeding room 11 within a certain period of time, generate hotspot images and send them to the controller 4. At the same time, the excrement analysis device 33 analyzes the excrement of the animals, and all animal body condition information is It is sent to the controller 4 for management and recording, which facilitates the management of individual animal health and facilitates the adaptation and supply device 2 to provide corresponding medicines.

During operation, the air monitoring device 12 detects the air in the captive device, including but not limited to PM2.5, PM10, harmful organic gas components, etc., and the detection data is managed by the controller 4. When the control quality value is lower than expected, the air purification device 13 is started, and the spray structure of the disinfection device 132 is adapted to spray alcohol, disinfectant water or other purification aerosols in the captive device 1 . At the same time, the fresh air device 131 increases the ventilation effect and realizes intelligent management of the ambient air in the captive device 1 . There is a supply device 2 for animal feeding, which supplies feed and water sources from different warehouses and is intelligently managed by the controller 4. The multiple nutrient warehouses 23 can store different nutrients, such as vitamins, amino acids, iron supplements, etc., so that the supply can be individually controlled according to the needs of livestock, better meeting breeding needs, and increasing body condition in daily management. Detection device 3 facilitates the management and detection of animal health. The collection and analysis device 31 is worn on the animal to facilitate the collection and analysis of the animal's sweat and blood at any time, thereby realizing real-time collection and management of the physical condition of the breeding animals, and the hotspot collection device 32 can collect the data of the livestock in the breeding room 11 at a certain time. The activities within the time period generate hot spot images and send them to the controller 4. At the same time, the excrement analysis device 33 analyzes the animal's excrement. All animal body condition information is sent to the controller 4 for management and recording, which facilitates the individual health of the animals. management, and the conveniently adapted supply device 2 provides corresponding medicines.

Meanwhile, the contents not described in detail in this specification belong to the prior art known to those skilled in the art.

Claims (10)

1. An intelligent breeding system based on feed processing, including a captive breeding device (1), a supply device (2), a body condition detection device (3) and a controller (4), characterized by: the captive breeding device (1) There are a plurality of breeding rooms (11), and the captive breeding device (1) is equipped with an air monitoring device (12) and an air purifying device (13). The air monitoring device (12) and the air purifying device (13) ) is electrically connected to the controller (4), and the body condition detection device (3) is electrically connected to the controller (4); The supply device (2) consists of a feeding trough (21), a feed bin (22), a nutrient bin (23) and a water supply bin (24). The feeding trough (21) is located on the side of the breeding room (11) , the feed bin (22), nutrient bin (23), water supply bin (24) and feeding trough (21) are connected through a feeding structure, and the feeding structure is electrically connected to the controller (4); The body condition detection device (3) is composed of a collection and analysis device (31), a hot spot collection device (32) and an excrement analysis device (33). The collection and analysis device (31) is a wearable structure, and the collection and analysis device (31) is a wearable structure. The device (31) is provided with a sweat collector and a blood collector. The hot spot collection device (32) is an infrared image camera. There are multiple hot spot collection devices (32) and they are adapted to the captive device (1). . 2. An intelligent breeding system based on feed processing according to claim 1, characterized in that: the feeding trough (21) includes a feed bin and a clean water trough (247), and the nutrient bin (23) is provided with Multiple. 3. An intelligent breeding system based on feed processing according to claim 2, characterized in that: the water supply warehouse (24) includes a water valve (246), a first water storage tank (242), a second water storage tank ( 243), the first pipe (244) and the second pipe (245), the water valve (246) is connected with the first water storage tank (242), the first water storage tank (242) is connected with the second The water storage tank (243) is connected through the first pipe (244) and the second pipe (245). The first water storage tank (242) is higher than the second water storage tank (243). The pipe (244) is located below the second pipe (245), and a switch valve (2441) is provided on the first pipe (244). The second water storage tank (243) and the clean water tank (247 ) connected; The second water storage tank (243) is provided with a first liquid level sensor (2431) and a second liquid level sensor (2432), and the second liquid level sensor (2432) is located at the first liquid level sensor (2431 ), when the water level in the second water storage tank (243) is lower than the preset water level of the first liquid level sensor (2431), the first liquid level sensor (2431) causes the switch valve to (2441) is opened. When the water level in the second water storage tank (243) is higher than the preset water level of the second liquid level sensor (2432), the second liquid level sensor (2432) makes the switch Valve (2441) is closed. 4. An intelligent breeding system based on feed processing according to claim 3, characterized in that: a third liquid level sensor (2433) is provided in the second water storage tank (243), and the third liquid level The sensor (2433) is located between the first liquid level sensor (2431) and the second liquid level sensor (2432). The first water storage tank (242) is provided with a pipe at the second pipe (245). Water flow sensor (2421), when the water flow sensor (2421) is triggered and the water level in the second water storage tank (243) is higher than the preset water level of the second liquid level sensor (2432), the The water valve (246) is closed, when the water flow sensor (2421) is not triggered, and the water level in the second water storage tank (243) is lower than the third liquid level sensor (2433), the third liquid level sensor (2433) Three liquid level sensors (2433) cause the water valve (246) to open. 5. An intelligent breeding system based on feed processing according to claim 4, characterized in that the diameter of the second pipe (245) is greater than the diameter of the first pipe (244). 6. An intelligent breeding system based on feed processing according to claim 4, characterized in that: the second water storage tank (243) is provided with a water outlet (2434), and the second water storage tank (243) A baffle (2435) and a floating block (2436) are also provided on the water tank. The baffle (2435) is slidingly connected to the second water storage tank (243). The baffle (2435) can move along the second water storage tank (243). The water tank (243) slides in the height direction, slides the baffle (2435) to open or close the water outlet (2434), the floating block (2436) is located in the clean water tank (247), and the The floating block (2436) is connected to the baffle (2435). When the water level in the clear water tank (247) is lower than the preset water level, the floating block (2436) drives the baffle (2435) to descend. Allow the water outlet (2434) to be opened. 7. An intelligent breeding system based on feed processing according to claim 1, characterized in that: the air purification device (13) is arranged above the breeding room (11), and the air purification device (13) comprises a fresh air device (131) and a disinfection device (132), an output end of the fresh air device (131) is provided with an air supply duct, the disinfection device (132) is a spray structure, and the disinfection device (132) is connected to an external disinfectant configuration tank through a pipeline. 8. An intelligent breeding system based on feed processing according to claim 1, characterized in that: a water quality monitor (241) is provided in the water supply bin (24), and the water quality monitor (241) and control The device (4) is electrically connected. 9. An intelligent breeding system based on feed processing according to claim 1, characterized in that: the collection and analysis device (31), the hot spot collection device (32), and the excrement analysis device (33) are all equipped with Wireless communication module. 10. An intelligent breeding system based on feed processing according to any one of claims 1 to 9, characterized in that: the controller (4) is composed of an information processing server and an information storage module, and the controller (4) is composed of an information processing server and an information storage module. 4) There is a display module connected through a wired network.