CN117770142B - 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

Intelligent breeding system based on feed processing

Technical Field

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

Background

Livestock breeding refers to the process of breeding and reproducing animals and plants, generally by human artificial breeding and domestication, or the physiological functions of wild animals such as deer, musk, fox, marten, otter, quail and the like, by artificial breeding and reproduction, the animals and plants such as pasture, feed and the like can be converted into animal energy, so that the production process of livestock products such as meat, eggs, milk, wool, cashmere, skin, silk, medicinal materials and the like can be obtained, and animal breeding and feed processing are combined, so that the animals are immediately transported to a breeding area corresponding to the feed for feeding after the feed processing, and meanwhile, the animal breeding is changed into automation, the manpower resources are saved, and the breeding efficiency can be improved.

For example, publication number CN108207652B discloses an intelligent breeding system based on feed processing, including the device of raising, storage device, feed processing device, conveyer, monitoring devices, positioner, wireless device and control center, the device of raising includes breeding canopy, manger and clear water groove, storage device includes fodder storage bin, fodder passageway, ratio storehouse, ratio passageway, fodder input mouth, clear water storage bin, clear water passageway and clear water introducing port, feed processing device includes agitating unit and heating device, the conveyer includes places motor, transportation baffle, transport platform, transportation motor and transportation track, monitoring devices includes first camera, second camera, water depth detector and temperature and humidity sensor, positioner quantity is unanimous and sets up in breeding canopy internal position with breeding canopy quantity, wireless device sets up in control center internal position, control center sets up in the internal position of breeding farm management department planning;

The intelligent breeding system based on feed processing in this patent can make the automatic cooperation and the throwing of realization fodder, but lacks intelligent monitoring and the management to the animal for the throwing of fodder can't carry out intelligent management according to the self health condition of animal, and control and management effect to breeding system are relatively poor, can't better satisfy the breed demand.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides an intelligent breeding system based on feed processing, which solves the problems that the intelligent monitoring and management of animals are lacking, so that the feeding of the feed cannot be intelligently managed according to the self health condition of the animals, the monitoring and management effects of the breeding system are poor, and the breeding requirements cannot be met well.

In order to achieve the above purpose, the invention is realized by the following technical scheme: the intelligent breeding system based on feed processing comprises a housing device, a supply device, a body condition detection device and a controller, wherein a plurality of breeding rooms are arranged in the housing device, an air monitoring device and an air purifying device are arranged in the housing device, the air monitoring device, the air purifying device and the controller are electrically connected, and the body condition detection device is electrically connected with the controller;

The feeding device consists of a feeding groove, a feeding bin, a nutritional agent bin and a water supply bin, wherein the feeding groove is positioned at the side of the cultivation room, the feeding bin, the nutritional agent bin, the water supply bin and the feeding groove are connected through a feeding structure, and the feeding structure is electrically connected with the controller;

the body condition detection device comprises an acquisition and analysis device, a hot spot acquisition device and a excrement analysis device, the acquisition and analysis device is of a wearable structure, a sweat collector and a blood collector are arranged on the acquisition and analysis device, the hot spot acquisition device is an infrared image camera, the hot spot acquisition device is provided with a plurality of hot spot acquisition devices and is adapted to the housing device, the acquisition and analysis device is worn on an animal body, sweat and blood of the animal are conveniently acquired and analyzed at any time, and real-time acquisition and management of the body condition of the cultured animal are realized.

Preferably, the feeding groove comprises a feeding bin and a clear water tank, the nutrient bins are provided with a plurality of nutrient bins, so that animal feeds and water sources can be conveniently put in, and the feeding structure is used for controlling and supplying the nutrient bins, and meanwhile, a plurality of nutrient bins can store different nutrient agents, such as vitamins, amino acids, iron supplements and the like, so that the feeding can be independently controlled according to the requirements of livestock, and the breeding requirements can be better met.

Preferably, the water supply bin comprises a water valve, a first water storage tank, a second water storage tank, a first pipeline and a second pipeline, wherein the water valve is communicated with the first water storage tank, the first water storage tank is communicated with the second water storage tank through the first pipeline and the second pipeline, the first water storage tank is higher than the second water storage tank, the first pipeline is positioned below the second pipeline, a switch valve is arranged on the first pipeline, and the second water storage tank is communicated with the clear water tank; the second water storage tank is provided with a first liquid level sensor and a second liquid level sensor, the second liquid level 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 enables the switch valve to be opened, and 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 enables the switch valve to be closed. Therefore, the water level in the clean water tank can be kept at a convenient position for drinking for a long time.

Preferably, a third liquid level sensor is arranged in the second water storage tank, the third liquid level sensor is located between the first liquid level sensor and the second liquid level sensor, the first water storage tank is provided with a water flow sensor at the second pipeline, 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 closed, when the water flow sensor is not triggered, and when the water level in the second water storage tank is lower than the third liquid level sensor, the third liquid level sensor enables the water valve to be opened so as to supplement water into the first water storage tank in time.

Preferably, the diameter of the second pipeline is larger than that of the first pipeline, so that water is supplied to the second water storage tank more quickly, and the water level of the clean water tank is kept better.

Preferably, a water outlet is formed in the second water storage tank, a baffle and a floating block are further arranged on the second water storage tank, the baffle is in sliding connection with the second water storage tank, the baffle can slide along the height direction of the second water storage tank, the baffle slides to enable the water outlet to be opened or closed, the floating block is located in the clear water tank, the floating block is connected with the baffle, and when the water level in the clear water tank is lower than a preset water level, the floating block drives the baffle to descend so that the water outlet is opened, and therefore the water level in the clear water tank is guaranteed to be supplemented to a position convenient for drinking.

Preferably, the air purification device is arranged above the cultivation room, the air purification device comprises a fresh air device and a disinfection device, an air supply pipeline is arranged at the output end of the fresh air device, the disinfection device is of a spraying structure, an external disinfection solution configuration bin is connected to the disinfection device through a pipeline, the air in the cultivation device is detected by the air monitoring device, the air comprises PM2.5, PM10, harmful organic gas components and the like, the spraying structure of the air purification device is adapted, alcohol, disinfection water or other purification aerosol can be sprayed in the cultivation device, and the intelligent management of the ambient air in the cultivation device is realized.

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

Preferably, the collection and analysis device, the hot spot collection device and the excrement analysis device are respectively provided with a wireless communication module, so that the collection information can be conveniently sent.

Preferably, the controller is composed of an information processing server and an information storage module, the controller is connected with a display module through a wired network, the controller receives all acquired and detected information data and records the information data, and meanwhile, personnel can check the information and the state of the culture system through the display module.

The invention provides an intelligent breeding system based on feed processing. Compared with the prior art, the method has the following beneficial effects:

1. this intelligent farming systems based on feed processing through setting up air monitoring devices and air purification device etc. detects the air in the device of raising in the house by air monitoring devices, including but not limited to PM2.5, PM10, harmful organic gas composition etc. and detects data and manage by the controller, when control quality numerical value is less than expecting, start air purification device to adaptation degassing unit's spraying structure can spray alcohol, disinfection water or other purification type aerosols in the device of raising in the house, and fresh air device increases ventilation effect simultaneously, realizes the ambient air in the intelligent management device of raising in the house.

2. This intelligent farming systems based on feed processing through setting up feeding device, feeding groove and nutritional agent storehouse etc. realizes the supply of fodder and water source by different storage to carry out intelligent management by the controller, and a plurality of nutritional agent storehouse can deposit different nutritional agents, such as vitamin, amino acid, iron supplement agent etc. thereby can be according to the needs individual control supply of livestock, satisfy the breed demand better.

3. This intelligent farming systems based on feed processing through setting up collection analytical equipment, hot spot collection device and excrement analytical equipment etc. increases body condition detection device, conveniently manage and detect animal health, drew collection analytical equipment on the animal body, conveniently gather and analyze sweat and blood of animal at any time, realize gathering and managing the real-time of farming animal health condition, and the activity condition of livestock in the time of hot spot collection device can gathering the farming room, generate hot spot image transmission controller, excrement analytical equipment analyzes the excrement of animal simultaneously, all animal body condition information is managed and recorded to the controller, be convenient for manage animal individual health, and the convenient adaptation feeding device provides corresponding medicine.

Drawings

FIG. 1 is a schematic view of the containment device of the present invention;

FIG. 2 is a schematic view of the structure of the cultivation system of the present invention;

FIG. 3 is a schematic view of a water supply cartridge of the present invention.

In the figure: 1-housing device, 11-cultivation room, 12-air monitoring device, 13-air purification device, 131-fresh air device, 132-disinfection device, 2-supply device, 21-feeding tank, 22-feeding bin, 23-nutrient bin, 24-water supply bin, 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-baffle, 2436-floating block, 244-first pipeline, 2441-switch valve, 245-second pipeline, 246-water valve, 247-clear water tank, 3-body condition detection device, 31-collection analysis device, 32-hot spot collection device, 33-excrement analysis device, 4-controller.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present application more apparent, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments of the present application. The components of the embodiments of the present application generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the application, as disclosed in the accompanying drawings, is not intended to limit the scope of the application, as claimed, but is merely representative of selected embodiments of the application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

It should be noted that, without conflict, the embodiments of the present application and features of the embodiments may be combined with each other.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following 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 conventionally put in use of the product of the application as understood by those skilled in the art, which is merely for convenience of describing the present application and simplifying the description, and is not indicative or implying that the apparatus or element to be referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present application. Furthermore, the terms "first," "second," "third," and the like are used merely to distinguish between descriptions and should not be construed as indicating or implying relative importance.

In the description of the embodiments of the present application, it should also be noted that, unless explicitly specified and limited otherwise, the terms "disposed," "mounted," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; may be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present application will be understood in specific cases by those of ordinary skill in the art.

Referring to fig. 1-3, the present invention provides a technical solution: an intelligent breeding system based on feed processing comprises a housing device 1, a supply device 2, a body condition detection device 3 and a controller 4. Be provided with a plurality of cultivation room 11 in the device 1 of raising in the captivity, the inside of device 1 of raising in the captivity is provided with air monitoring device 12 and air purification device 13, air monitoring device 12, air purification device 13 and controller 4 electric connection, air purification device 13 sets up in the top of cultivating room 11, and air purification device 13 includes new trend device 131 and degassing unit 132, and the output of new trend device 131 is provided with the supply air pipeline. The disinfection device 132 is of a spraying structure, the disinfection device 132 is connected with an external disinfection solution configuration bin through a pipeline, the body condition detection device 3 is electrically connected with the controller 4, the controller 4 is composed of an information processing server and an information storage module, the controller 4 is connected with a display module through a wired network, the air monitoring device 12 detects air in the containment device, including but not limited to PM2.5, PM10, harmful organic gas components and the like, and detection data are managed by the controller 4. When the control quality value is lower than the expected value, the air purifying device 13 is started, and the spraying structure of the sterilizing device 132 is adapted, so that alcohol, sterilizing water or other purifying aerosols can be sprayed in the housing device 1, and meanwhile, the ventilation effect is increased by the fresh air device 131, so that the intelligent management of the ambient air in the housing device 1 is realized.

The feeding 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 at the side of the cultivation room 11, and the 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 with the controller 4. The feeding trough 21 comprises a feed bin and a clear water trough 247, and the nutrient bin 23 is provided with a plurality of. The water supply bin 24 is internally provided with a water quality monitor 241, the water quality monitor 241 is electrically connected with the controller 4, and the feed and water source are supplied by different storages and are intelligently managed by the controller 4. The multiple nutrient bins 23 can store different nutrients, such as vitamins, amino acids, iron supplements, etc., so that the feeding can be independently controlled according to the requirements of livestock, and the breeding requirements can be better met.

Wherein the water supply bin 24 includes a water valve 246, a first water storage tank 242, a second water storage tank 243, a first conduit 244, and a second conduit 245. The water valve 246 is communicated with the first water storage tank 242, the first water storage tank 242 is communicated with the second water storage tank 243 through a first pipeline 244 and a second pipeline 245, the diameter of the second pipeline 245 is larger than that of the first pipeline 244, the first water storage tank 242 is higher than the second water storage tank 243, the first pipeline 244 is located below the second pipeline 245, the first pipeline 244 is provided with a switch valve 2441, and the second water storage tank 243 is communicated with the clear water tank 247. The second water storage tank 243 is provided with a water outlet 2434, the second water storage tank 243 is also provided with a baffle 2435 and a floating block 2436, the baffle 2435 is in sliding connection with the second water storage tank 243, the baffle 2435 can slide along the height direction of the second water storage tank 243, and the baffle 2435 is slid to enable the water outlet 2434 to be opened or closed. The floating block 2436 is positioned in the clear water tank 247, and the floating block 2436 is connected with the baffle 2435. When the water level in the clean water tank 247 is lower than the preset water level, the floating block 2436 drives the baffle 2435 to descend so that the water outlet 2434 is opened.

A water flow sensor 2421 for detecting whether water flows is provided on the first water storage tank 242, and the water flow sensor 2421 is located at the junction of the first water storage tank 242 and the second pipe 245. A first liquid level sensor 2431, a second liquid level sensor 2432, and a third liquid level sensor 2433 are provided on the second water storage tank 243. 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 be opened, and 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 causes the switch valve 2441 to be closed. Third level sensor 2433 is located between first level sensor 2431 and second level sensor 2432. When the water flow sensor 2421 is triggered and the water level in the second water storage tank 243 is above the preset water level of the second water level sensor 2432, the water valve 246 is closed, and when the water flow sensor 2421 is not triggered and the water level in the second water storage tank 243 is below the third water level sensor 2433, the third water level sensor 2433 causes the water valve 246 to open.

The first water storage tank 242 and the second water storage tank 243 are operated as follows: initially, the first water storage tank 242 and the second water storage tank 243 are both in an empty state, at this time, the water valve 246 is opened, water can directly flow into the second water storage tank 243 from the first pipeline 244 after entering the first water storage tank 242, then flows into the clean water tank 247 from the water outlet 2434, and when the water level in the clean water tank 247 reaches a preset position, water starts to be stored in the second water storage tank 243. 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 causes the switch valve 2441 to be closed, and at this time, the water level in the second water storage tank 243 is unchanged, and water starts 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, the second liquid level sensor 2432 causes the water valve 246 to close. When the water level in the clean water tank 247 is lowered, water in the second water storage tank 243 flows into the clean water tank 247, resulting in a lowering of the water level in the second water storage tank 243. 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, and 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, and 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, and at this time, water will enter the second water storage tank 243 along the first pipe 244 and the second pipe 245 respectively, so as to quickly replenish water to the second water storage tank 243.

The body condition detecting device 3 is composed of an acquisition and analysis device 31, a hot spot acquisition device 32, and an excrement analysis device 33. The collection analysis device 31 is of a wearable structure, a sweat collector and a blood collector are arranged on the collection analysis device 31, the hot spot collection device 32 is an infrared image camera, and the hot spot collection device 32 is provided with a plurality of hot spot collection devices and is matched with the housing device 1. The collection and analysis device 31, the hot spot collection device 32 and the excrement analysis device 33 are respectively provided with a wireless communication module, the body condition detection device 3 is additionally arranged, the animal health management and detection are facilitated, the collection and analysis device 31 is worn on the animal body, the sweat and blood of the animal are conveniently collected and analyzed at any time, and the real-time collection and management of the body condition of the cultured animal are realized. And the hot spot collecting device 32 can collect the activity condition of livestock in the breeding room 11 within a certain period of time, generate hot spot images and send the hot spot images to the controller 4, meanwhile, the excreta analyzing device 33 analyzes excreta of animals, and all animal condition information is sent to the controller 4 for management and recording, so that the management of individual health of the animals is facilitated, and the corresponding medicines are conveniently provided by the adapting and supplying device 2.

In operation, air in the containment device is detected by the air monitoring device 12, including but not limited to PM2.5, PM10, hazardous 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 purifying device 13 is started, and the spraying structure of the sterilizing device 132 is adapted, so that alcohol, sterilizing water or other purifying aerosols can be sprayed in the housing device 1. Simultaneously, the fresh air device 131 increases the ventilation effect, and the intelligent management of the ambient air in the housing device 1 is realized. The feeding device 2 is used for feeding animals, the feed and water sources are fed by different storages, and the intelligent management is carried out by the controller 4. The multiple nutrient bins 23 can store different nutrients such as vitamins, amino acids, iron supplements and the like, so that the feeding of the animals can be independently controlled according to the requirements of the animals, the breeding requirements can be better met, and in daily management, the body condition detection device 3 is added, so that the animal health management and detection are facilitated. The collection and analysis device 31 is worn on the animal body, so that sweat and blood of the animal can be conveniently collected and analyzed at any time, real-time collection and management of the physical condition of the cultured animal are realized, the hot spot collection device 32 can collect the activity condition of livestock in the culture room 11 in a certain time, a hot spot image is generated and sent to the controller 4, meanwhile, the excreta analysis device 33 analyzes excreta of the animal, all animal condition information is sent to the controller 4 for management and recording, and the management of individual health of the animal is facilitated, and the corresponding medicine is conveniently provided by the adaptation supply device 2.

And all that is not described in detail in this specification is well known to those skilled in the art.

Claims (7)

1. An intelligent breeding system based on feed processing, includes and breeds device (1), feeding device (2), body condition detection device (3) and controller (4), its characterized in that: a plurality of cultivation rooms (11) are arranged in the containment device (1), an air monitoring device (12) and an air purifying device (13) are arranged in the containment device (1), the air monitoring device (12), the air purifying device (13) and the controller (4) are electrically connected, and the body condition detecting device (3) is electrically connected with the controller (4);

The feeding device (2) consists of a feeding groove (21), a feed bin (22), a nutrient bin (23) and a water supply bin (24), wherein the feeding groove (21) is positioned at the side of the cultivation room (11), the feed bin (22), the nutrient bin (23), the water supply bin (24) and the feeding groove (21) are connected through a feeding structure, and the feeding structure is electrically connected with 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 a excrement analysis device (33), the collection and analysis device (31) is of a wearable structure, a sweat collector and a blood collector are arranged on the collection and analysis device (31), the hot spot collection device (32) is an infrared image camera, and the hot spot collection device (32) is provided with a plurality of hot spot collection devices and is matched with the housing device (1);

The feeding trough (21) comprises a feeding bin and a clear water trough (247), and a plurality of nutrient bins (23) are arranged;

The water supply bin (24) comprises a water valve (246), a first water storage tank (242), a second water storage tank (243), a first pipeline (244) and a second pipeline (245), the water valve (246) is communicated with the first water storage tank (242), the first water storage tank (242) is communicated with the second water storage tank (243) through the first pipeline (244) and the second pipeline (245), the first water storage tank (242) is higher than the second water storage tank (243), the first pipeline (244) is positioned below the second pipeline (245), a switch valve (2441) is arranged on the first pipeline (244), and the second water storage tank (243) is communicated with the clear water tank (247);

A first liquid level sensor (2431) and a second liquid level sensor (2432) are arranged on the second water storage tank (243), the second liquid level sensor (2432) is positioned 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) enables the switch valve (2441) to be opened, and 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) enables the switch valve (2441) to be closed;

A third liquid level sensor (2433) is arranged in the second water storage tank (243), the third liquid level 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 water flow sensor (2421) at the second pipeline (245), 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 water level in the second water storage tank (243) is lower than the third liquid level sensor (2433), the third liquid level sensor (2433) enables the water valve (246) to be opened.

2. An intelligent farming system according to claim 1, wherein: the diameter of the second conduit (245) is greater than the diameter of the first conduit (244).

3. An intelligent farming system according to claim 1, wherein: be provided with delivery port (2434) on second storage water tank (243), still be provided with separation blade (2435) and kicker (2436) on second storage water tank (243), separation blade (2435) with second storage water tank (243) sliding connection, separation blade (2435) can be followed the direction of height of second storage water tank (243) is slided separation blade (2435) so that delivery port (2434) are opened or are closed, kicker (2436) are located in clear water tank (247), just kicker (2436) with separation blade (2435) are connected, when the water level in clear water tank (247) is less than the water level of predetermineeing, kicker (2436) drives separation blade (2435) decline so that delivery port (2434) are opened.

4. An intelligent farming system according to claim 1, wherein: the air purification device (13) is arranged above the cultivation room (11), the air purification device (13) comprises a fresh air device (131) and a disinfection device (132), an air supply pipeline is arranged at the output end of the fresh air device (131), the disinfection device (132) is of a spraying structure, and the disinfection device (132) is connected with an external disinfection solution configuration bin through a pipeline.

5. An intelligent farming system according to claim 1, wherein: the water supply bin (24) is internally provided with a water quality monitor (241), and the water quality monitor (241) is electrically connected with the controller (4).

6. An intelligent farming system according to claim 1, wherein: the collecting and analyzing device (31), the hot spot collecting device (32) and the excrement analyzing device (33) are respectively provided with a wireless communication module.

7. An intelligent farming system according to any one of claims 1 to 6, wherein: the controller (4) is composed of an information processing server and an information storage module, and the controller (4) is connected with a display module through a wired network.