CN215582852U - Cultivation system - Google Patents

Abstract

The utility model discloses a culture system which comprises an enclosing wall, a decontamination area, an isolation area, a living area and a culture area, wherein the decontamination area, the isolation area, the living area and the culture area are arranged in the enclosing wall. The enclosure wall is provided with a doorway. The district that washes away, isolation zone, living area and breed district arrange in proper order from the gate to the enclosure through the passageway, wash the district that disappears and constitute to disinfect to personnel and/or article, the isolation zone is constituted to keep apart personnel, and the living area is constituted to the place that personnel live, and the breed district is constituted to breed the animal. In the farming system of this application embodiment, in getting into the enclosure and before getting into the farming district, personnel and/or article need in proper order through disinfecting, keep apart, can prevent like this that personnel and/or article from carrying the virus and get into the farming district to can prevent that the animal in the farming from infecting the virus, improve farming system's productivity ratio.

Description

Cultivation system

Technical Field

The utility model relates to the technical field of cultivation, in particular to a cultivation system.

Background

African swine fever is an acute, hemorrhagic and virulent infectious disease caused by the infection of pigs with African swine fever virus. African swine fever is characterized by short disease process, high death rate of acute infection up to 100%, similar clinical symptoms to swine fever symptoms, and accurate diagnosis only by means of laboratory monitoring. Furthermore, African swine fever virus is very resistant to the environment and no vaccine is currently available. At present, the African swine fever virus causes a large number of domestic pigs to die, so that the technical problem of preventing the African swine fever virus from infecting the live pigs in a farm is urgently needed to be solved.

SUMMERY OF THE UTILITY MODEL

The utility model provides a culture system.

The cultivation system comprises an enclosing wall, a decontamination area, an isolation area, a living area and a cultivation area, wherein the decontamination area, the isolation area, the living area and the cultivation area are arranged in the enclosing wall. The enclosure is provided with a doorway. The decontamination area, the isolation area, the living area and the breeding area are sequentially arranged in the enclosure from the doorway through channels, the decontamination area is used for disinfecting personnel and/or articles, the isolation area is used for isolating the personnel, the living area is used as a place for the life of the personnel, and the breeding area is used for breeding animals.

In some embodiments, a ratproof plate is disposed on the enclosure wall.

In some embodiments, the decontamination area includes a personnel disinfection room, the personnel disinfection room includes a first dressing room, a bath room and a second dressing room which are sequentially communicated, and the first dressing room is communicated with the doorway. The first dressing room is used for changing the clothing for the person down to in personnel get into the disinfection of bathing in bathroom, the second dressing room is used for making the personnel after the disinfection of bathing change the disinfected clothing, so that the personnel after the disinfection of bathing get into the isolation region.

In some embodiments, a first door is provided between the first changing room and the bathroom, and a second door is provided between the bathroom and the second changing room, the first door being opened in one direction from the first changing room to the bathroom, and the second door being opened in one direction from the bathroom to the second changing room.

In some embodiments, the first changing room is provided with a duct communicating the first changing room with an outside of the first changing room, and the duct is used for sending the clothes changed by the person to the outside of the first changing room.

In some embodiments, the decontamination area includes first disinfection room and second disinfection room, first disinfection room with the second disinfection room sets up side by side, first disinfection room with the second disinfection room all passes through the gate intercommunication the inside and outside both sides of enclosure, first disinfection room is used for adopting the mode of liquid to disinfect to first goods and materials, the second disinfection room is connected with heating device, heating device is used for heating the second disinfection room is in order to adopt the mode of high temperature to disinfect to second goods and materials.

In some embodiments, a buffer zone is disposed in front of the doorway, the buffer zone being configured to hold non-sterile supplies.

In some embodiments, a disinfection device is disposed between the isolation zone and the living zone, and between the living zone and the breeding zone.

In some embodiments, the farm includes a plurality of farms, each farm communicating through a closed corridor.

In some embodiments, the corridor is provided with an opening communicating with the outside of the enclosure.

In the farming system of this application embodiment, in getting into the enclosure and before getting into the farming district, personnel and/or article need in proper order through disinfecting, keep apart, can prevent like this that personnel and/or article from carrying the virus and get into the farming district to can prevent that the animal in the farming from infecting the virus, improve farming system's productivity ratio.

Additional aspects and advantages of the utility model will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the utility model.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a schematic structural view of a farming system according to an embodiment of the present invention;

FIG. 2 is a schematic view of another configuration of a farming system according to an embodiment of the present invention;

FIG. 3 is a schematic view of another embodiment of the cultivation system according to the utility model;

FIG. 4 is a schematic structural view of a decontamination area in accordance with an embodiment of the present invention;

FIG. 5 is a schematic view of another configuration of a decontamination region in accordance with an embodiment of the present invention;

FIG. 6 is a schematic view of yet another embodiment of a decontamination region in accordance with embodiments of the present invention.

Description of the main element symbols:

the system comprises a breeding system 10, a buffer zone 12, a fence 13, a decontamination zone 15, an isolation zone 16, a living zone 17, a breeding zone 18, a doorway 132, a rat guard 134, a protective net 135, an opening 136, a personnel disinfection room 152, a first disinfection room 154, a second disinfection room 156, a clean area warehouse 158, a dirty area warehouse 159, disinfection equipment 162, a breeding room 182, a corridor 184, a first dressing room 1522, a first door 1523, a bath room 1524, a second door 1525, a second dressing room 1526 and a conveying pipe 1528.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, features defined as "first", "second", may explicitly or implicitly include one or more of the described features. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; may be mechanically connected, may be electrically connected or may be in communication with each other; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the present invention, unless otherwise expressly stated or limited, "above" or "below" a first feature means that the first and second features are in direct contact, or that the first and second features are not in direct contact but are in contact with each other via another feature therebetween. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

The following disclosure provides many different embodiments or examples for implementing different features of the utility model. To simplify the disclosure of the present invention, the components and arrangements of specific examples are described below. Of course, they are merely examples and are not intended to limit the present invention. Furthermore, the present invention may repeat reference numerals and/or letters in the various examples, such repetition is for the purpose of simplicity and clarity and does not in itself dictate a relationship between the various embodiments and/or configurations discussed. In addition, the present invention provides examples of various specific processes and materials, but one of ordinary skill in the art may recognize applications of other processes and/or uses of other materials.

Referring to fig. 1, an embodiment of the present application provides a farming system 10. The farming system 10 includes an enclosure 13, a decontamination area 15, an isolation area 16, a living area 17, and a farming area 18. The decontamination area 15, the isolation area 16, the living area 17 and the cultivation area 18 are sequentially arranged from the doorway 132 to the enclosing wall 13 through a channel. The decontamination area 15 is configured to disinfect personnel and/or items. The isolation region 16 is configured to isolate personnel. The living area 17 is configured as a place where people live. The farming area 18 is configured to breed animals.

In the cultivation system 10 of the embodiment of the present application, before entering the enclosure 13 and entering the cultivation area 18, the personnel and/or the articles need to be disinfected and isolated in sequence, so that the personnel and/or the articles can be prevented from entering the cultivation area 18 with viruses, the animals in the cultivation area can be prevented from being infected with the viruses, and the productivity of the cultivation system 10 can be improved.

Specifically, the breeding system 10 can be used for breeding animals such as pigs, cattle, sheep and chickens, and the breeding system 10 has a function of preventing virus invasion, so that the health of the animals such as pigs, cattle, sheep and chickens raised in the breeding system 10 is guaranteed. Meanwhile, the farming system 10 also has a virus protection function for personnel in the farming system 10. The farming system 10 may avoid cross-contamination of the farmed animals and the personnel within the farming system 10. The farming system 10 may be provided with sound living facilities including canteens, staff dormitories, playgrounds, and the like, where personnel may live within the farming system 10.

The farming system 10 includes an enclosure 13. The enclosure 13 is the first safeguard that the farming system 10 is isolated from the outside. The enclosure wall 13 is provided with a device for preventing entry of organisms such as mice and the like, which carry harmful viruses. The farming system 10 isolates the interior of the farming system 10 from the exterior by the enclosure 13, greatly reducing the chance of virus infection of the farmed animals. The enclosure 13 may be provided with a doorway 132 for ingress and egress of personnel and supplies, and vehicles for personnel and supplies passing through the doorway 132 into and out of the farming system 10. The enclosure wall 13 is provided with a height that prevents other wild animals from entering the farming system 10 and causing harm to the farmed animals or human beings. The enclosing wall 13 can be a stone wall built by bricks, and the enclosing wall 13 can also be built by iron sheets.

A decontamination area 15 is provided within the farming system 10. The decontamination area 15 may be used for cleaning and disinfection of supplies and personnel. The personnel can kill the virus by means of washing, steaming and the like. After the personnel pass through the decontamination area 15, the harmful viruses possibly carried on the bodies and clothes of the personnel can be removed, and the infection of the personnel to the cultured animals is preliminarily prevented. The decontamination area 15 can be set as a one-way channel or a two-way channel, so that the decontamination area 15 can prevent the cleaned materials and personnel from being infected with external germs again.

The farming system 10 is provided with an isolation zone 16. The isolation zone 16 may provide a site for isolation of personnel and may be used to destroy viruses that may be harmful to farmed animals, such as African swine fever virus, in the personnel isolation equipment 30. Personnel can destroy the virus by rinsing, steaming, etc. within the decontamination area 15. Then, the person can discharge the original excrement from the body during the isolation period in the isolation area 16, so that the excrement which may carry viruses such as African swine fever virus can be discharged from the body, and the person can be prevented from bringing the African swine fever virus into a farm after the isolation. It is worth mentioning that a dining room and a cleaning facility can be arranged in the isolation area 16, and personnel can be prevented from being infected with harmful viruses during the isolation period.

The farming system 10 is provided with a living area 17. The living area 17 is used to provide eating, lodging and entertainment areas for the personnel within the farming system 10. The person or the like can return to the living area 17 for personal activities including exercising, cooking, bathing, etc. after the production activities of the breeding area 18 are completed. Personnel live in living area 17, personnel have avoided going to the region in farming systems 10 except for farming area 18 and the outside of farming systems 10, and personnel can avoid to a great extent contaminating external harmful virus and carry back to living area 17 and farming area 18.

The farming system 10 is provided with a farming area 18. The farm 18 is used for breeding and production areas for animals. The farming area 18 may provide a suitable farming environment for the farmed animals. Suitable farming environments include, but are not limited to, suitable farming temperatures, clean, pollution-free dwellings, and plentiful water and foodstuffs, among others.

Referring to fig. 2, in some embodiments, a ratproof board 134 is disposed on the wall 13.

The rat guard 134 may be made of a smooth iron plate. The coefficient of friction of the surface of the ratboard 134 may be less than 0.16 so that external animals, when climbing, slide down easily, are not as forceful, and are difficult to climb up and over the perimeter wall 13.

The rat guard 134 is arranged around the whole enclosing wall 13, and the rat guard 134 has a certain width which can be 50cm, 53cm, 58cm, 60cm, 62cm, 67cm and 70 cm. The ratproof board 134 may be set at a certain height from the ground, which may be 100cm or 120cm, etc.

The rat guard 134 can be arranged on the enclosing wall 13 by means of sticking, clamping, fixing with screws, etc. Thus, when climbing the enclosure 13, the animals outside the farming system 10 are blocked by the rat guard 134 and cannot cross the enclosure 13.

In some embodiments, as shown in fig. 3, the rat guard 134 may be disposed at a certain height from the ground and in a "7" shape, thus reducing the use area of the rat guard 134.

In some embodiments, the drain provided on the fence 13 is also provided with a protection net 135 through which rats, vermin, etc. cannot pass.

Referring to fig. 4, in some embodiments, the decontamination area 15 includes a personnel sterilization chamber 152, the personnel sterilization chamber 152 includes a first changing room 1522, a bath room 1524 and a second changing room 1526 which are sequentially connected, the first changing room 1522 is connected to the doorway 132, the first changing room 1522 is used for changing clothes for the personnel to enter the bath room 1524 for sterilization, and the second changing room 1526 is used for changing the sterilized clothes for the personnel to enter the isolation area 16.

Thus, through the decontamination area 15, the farming system 10 may perform a first cleaning and disinfection of personnel and materials, and thus may clean in a first step germs that may be carried back from the outside, including viruses attached to hands or clothes. The decontamination area 15 largely prevents the infestation of the personnel or the farmed animals inside the farming system 10 by foreign viruses.

Specifically, the decontamination area 15 includes a personnel sterilization booth 152. Personnel enter the personnel disinfection room 152 and need pass through first changing room 1522, bathroom 1524 earlier and then enter second changing room 1526, and first changing room 1522 communicates with gate 132, and personnel take off the clothing that probably carries the germ of oneself at first changing room 1522 to put the clothing in special treatment area, get into bathroom 1524 and wash the shower, eliminate the germ that the health probably carried. The person enters the second changing room 1526 and changes the sterilized clothes to enter the isolation area 16.

It can be appreciated that first changing room 1522 and second changing room 1526 can set up article such as wardrobe, supporter as required to make things convenient for personnel to use. The bathroom 1524 can be equipped with shower heads and other articles to meet the requirements of personnel. In addition, the water of the shower of the bath room 1524 can be sterilized water harmless to the human body, so that the sterilization of the personnel is more thorough.

The first changing room 1522, the bath room 1524 and the second changing room 1526 can be made of light-transmitting materials such as glass, so that the curtains and the like of the first changing room 1522, the bath room 1524 and the second changing room 1526 can be hung up during the period of non-use, the first changing room 1522, the bath room 1524 and the second changing room are irradiated by sunlight, and germs possibly existing in the first changing room 1522, the bath room 1524 and the second changing room 1526 can be eliminated to a great extent.

Referring to fig. 4, in some embodiments, a first door 1523 is disposed between the first changing room 1522 and the bath room 1524, a second door 1525 is disposed between the bath room 1524 and the second changing room 1526, the first door 1523 is opened from the first changing room 1522 toward the bath room 1524 in a single direction, and the second door 1525 is opened from the bath room 1524 toward the second changing room 1526 in a single direction.

Thus, the person can flow in one direction, and the person who has a bath and is disinfected is prevented from entering the first dressing room 1522 again to carry viruses.

Specifically, one-way door handles may be provided on the first door body 1523 and the second door body 1525, the one-way door handles being provided in the direction of the bath room 1524 and the first changing room 1522, so that a person can open the door to the next room at the first changing room 1522 and the bath room 1524 without opening the door to the first changing room 1522 from the bath room 1524 and without opening the door to the bath room 1524 from the second changing room 1526.

Referring to fig. 4, in some embodiments, the first changing room 1522 is provided with a conveying pipe 1528 for communicating the first changing room 1522 with the outside of the first changing room 1522, and the conveying pipe 1528 is used for conveying the clothes changed by the person to the outside of the first changing room 1522.

Specifically, the delivery pipe 1528 is configured to be embedded in a wall of the first changing room 1522, and the delivery pipe 1528 is configured with a certain inclination, so that the clothes can slide into a clothes storage point connected with the delivery pipe 1528 for disinfection and cleaning. The duct 1528 is provided with a radius, which may be 50cm, 55cm, 60cm, etc., so that the laundry does not get stuck inside the duct 1528.

Referring to fig. 4, in some embodiments, a first door 1523 is disposed between the first changing room 1522 and the bath room 1524, a second door 1525 is disposed between the bath room 1524 and the second changing room 1526, the first door 1523 is configured to enable the first changing room 1522 and the bath room 1524 to be opened in two directions, and the second door 1525 is configured to enable the bath room 1524 and the second changing room 1526 to be opened in two directions.

In this manner, access to personnel is facilitated, and personnel can enter and exit the farming system 10 through the bi-directional personnel sterilization chamber 152.

Specifically, the person enters the person disinfection room 152 through the first changing room 1522 and the bath room 1524 and then enters the second changing room 1526, the first changing room 1522 is communicated with the doorway 132, the person takes off the clothes which may carry germs in the first changing room 1522, puts the clothes in a special treatment area, enters the bath room 1524 to wash and shower, and the germs which may be carried by the body are eliminated. The person enters the second changing room 1526 and changes the sterilized clothes to enter the isolation area 16. If a person wishes to exit the outside of the farming system 10 through the person sterilization room 152, the person needs to take off his or her own clothing in a dedicated retrieval area at the second changing room 1526, and then may enter the bathroom 1524 for a sterile bath or skip the step of personal sterile bath, and then enter the first changing room 1522 for replacement with the prepared clothing.

Referring to fig. 5, in some embodiments, the decontamination area 15 includes a first sterilization chamber 154 and a second sterilization chamber 156, the first sterilization chamber 154 and the second sterilization chamber 156 are disposed in parallel, the first sterilization chamber 154 and the second sterilization chamber 156 are both connected to the inner side and the outer side of the enclosure 13 through the door 132, the first sterilization chamber 154 is used for sterilizing the first material in a liquid manner, and the second sterilization chamber 156 is connected to a heating device for heating the second sterilization chamber 156 to sterilize the second material in a high temperature manner.

In this manner, first sterilization booth 154 and second sterilization booth 156 may sterilize the materials entering enclosure 13 to prevent the materials from carrying viruses. In addition, the first sterilization booth 154 and the second sterilization booth 156 are sterilized in different manners, which can meet the sterilization requirements of different types of materials.

For example, the first sterilization booth 154 may be used to liquid sterilize materials, such as small plastic tools, that are not easily damaged by liquid. The second sterilization chamber 156 can sterilize materials, such as brooms, shovels, etc., which are not easily damaged due to high temperature. As used herein, "elevated temperature" refers to a temperature greater than 50 degrees Celsius.

The liquid disinfection mode refers to that a disinfection medium for disinfecting materials is liquid. The materials can be disinfected by soaking, spraying and the like.

The first sterilization chamber 154 and the second sterilization chamber 156 may be constructed of aluminum alloy plates or steel structures, and the specific materials of the first sterilization chamber 154 and the second sterilization chamber 156 are not limited herein.

In the embodiment of the present application, the number of the first sterilization booth 154 and the second sterilization booth 156 is not limited, and may be one or more.

The first material and the second material may be the same type of material, or may be different types of material, and the specific types of the first material and the second material are not further limited herein. Under the condition that the quantity of the first materials or the second materials is large, in order to avoid the phenomenon that the materials are stacked, the first materials or the second materials can be disinfected in a small quantity of multiple disinfection modes, and therefore it is guaranteed that viruses on the first materials or the second materials can be inactivated.

In some embodiments, a hot air device may be provided in the second sterilization booth 156, and the hot air device may be used to supply hot air into the second sterilization booth 156 to heat the second sterilization booth 156.

In this manner, the hot air device sends hot air into the second sterilization chamber 156 to raise the temperature of the air in the second sterilization chamber 156, so that the second sterilization chamber 156 can be heated to sterilize the second material. In addition, the hot air device is disposed outside the second sterilization booth 156, which facilitates connection of the hot air device to a heat generating source, thereby facilitating heating of the second sterilization booth 156.

The hot air device may heat air by at least one of electric heating, gas heating, and solar heating. The hot air device has a fan that can send heated air into the second sterilization booth 156. In the present embodiment, the second sterilization booth 156 is in a sealed state during the heating process of the second sterilization booth 156. Alternatively, the openings such as doors and windows of the second sterilization booth 156 are all closed.

Of course, in other embodiments, the second sterilization booth 156 may be provided with electrical heating elements that may heat the air within the second sterilization booth 156 during operation.

In order to avoid the accumulation and placement of objects, a multi-layer rack can be disposed in the second disinfection room 156, and the second objects can be dispersedly placed on different layer structures of the rack.

In some embodiments, a clean area store 158 is connected to the first sterilization booth 154 and the second sterilization booth 156, and the clean area store 158 may be used to store and sterilize materials.

Referring to fig. 1, 5 and 6, in some embodiments, a buffer 12 is disposed in front of the doorway 132, the buffer 12 being configured to hold non-sterile supplies.

Thus, by locating the buffer area 12 outside the doorway 132, materials and personnel that may be contaminated with viruses can be prevented from entering the farming system 10 and causing infection to the farmed animals or the personnel in the farming system 10.

Specifically, as shown in fig. 5, the buffer area 12 of the doorway 132 may be set as an empty space of a designated area, and a person may move materials and the like off the vehicle and into the first sterilization booth 154 or the second sterilization booth 156 to sterilize the materials. Alternatively, as shown in fig. 6, the buffer area 12 of the doorway 132 may be configured as a dirty area warehouse 159 that is accessible by vehicles, so that personnel can unload and transport materials conveniently, and store certain materials externally, and wait for them to be taken out again when needed.

Referring to fig. 1, disinfection equipment 162 is disposed between the isolation area 16 and the living area 17, and between the living area 17 and the cultivation area 18.

In this way, the disinfection device 162 disposed between the isolation area 16 and the living area 17 can eliminate harmful viruses possibly existing in the isolation area 16 to some extent, and prevent the harmful viruses from entering the living area 17 to cause infection of internal personnel. The disinfection device 162 arranged between the living area 17 and the breeding area 18 can eliminate harmful viruses possibly existing in the living area 17 to a certain extent, and prevent the harmful viruses from entering the living area 17 to cause the infection of the bred animals.

In particular, the persons isolated in the isolation area 16 or living in the living area 17 may also have harmful viruses, such as unclean clothes, body bites by pests or secretions of residual pests, and the like. The disinfection device 162 may eliminate these potential hazards to some extent, blocking the transmission and entry of harmful viruses into the living area 17 or the farm area 18. The disinfection device 162 may be a shower stall, a body-friendly disinfection solution or body wash disposed in the shower stall for rinsing and showering.

Referring to FIG. 1, in some embodiments, the farm 18 includes a plurality of farms 182, each farm 182 communicating through a closed corridor 184.

In this way, the circulation path is reduced in the closed corridor 184, and the infestation of the culture room 182 by external pathogens can be resisted.

Specifically, the breeding room 182 may have 5, 6 or 7 floors, with 3, 4 or 5 floors. The breeding room 182 is provided with perfect breeding equipment, for example, the breeding room 182 may be provided with an air conditioner, a temperature regulator, a humidity regulator, a heater, an animal bath tub, a feeding tub, and the like. The plurality of cultivation rooms 182 are arranged at intervals and are communicated with each other through a corridor 184.

The corridor 184 may communicate with multiple farms 182. And the circulation path can be limited in the corridor 184, so that the possible transmission virus can be better treated, for example, disinfection equipment 162 is arranged at the head end and the tail end of the corridor 184 to disinfect the personnel or the feeding animals, and the virus can be prevented from being randomly transmitted in the plurality of breeding rooms 182 to a certain extent. Specifically, the corridor 184 may be made of glass, and has good light transmittance, and can receive the irradiation of sunlight to kill germs to some extent. The corridor 184 needs to have a certain weight bearing capacity, for example 2000KG, so that the corridor 184 does not collapse when transporting farmed animals or people through it. The corridor 184 needs to be provided with a certain height and width, for example, the corridor 184 may be provided with a height of 250cm and a width of 200 cm.

Referring to fig. 1, in some embodiments, the corridor 184 defines an opening 136 communicating with the outside of the enclosure 13.

Therefore, the personnel can directly convey the live pigs to the opening 136 through the corridor 184 and convey the live pigs to the outside of the enclosing wall 13, and the infection of external germs to the inside of the breeding room 182 caused by the back and forth entering and exiting of the breeding room 182 is avoided. Personnel may also transport dead pigs directly through corridor 184 to opening 136 and then to a dedicated disposal area.

Specifically, opening 136 may be a pig outlet, a port for transporting pigs to farming system 10 for sale. The opening 136 may also be a special disposal port for transporting dead pigs to a dedicated disposal area, such as an incineration pond and a corpse pond.

In the description herein, references to the description of the terms "one embodiment," "certain embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the utility model, the scope of which is defined by the claims and their equivalents.

Claims (9)

1. A farming system, comprising:

the enclosure is provided with a doorway;

the decontamination area, the isolation area, the living area and the breeding area are arranged in the enclosure wall, the decontamination area, the isolation area, the living area and the breeding area are sequentially arranged from the doorway to the interior of the enclosure wall through channels, the decontamination area is used for disinfecting people and/or articles, the isolation area is used for isolating the people, the living area is used as a place where the people live, and the breeding area is used for breeding animals;

the district that disappears includes first disinfection room and second disinfection room, first disinfection room with the second disinfection room sets up side by side, first disinfection room with the second disinfection room all passes through the gate intercommunication the inside and outside both sides of enclosure, the mode that the first disinfection room is used for adopting liquid is to first goods and materials disinfection, the second disinfection room is connected with heating device, heating device is used for heating the second disinfection room is disinfected to second goods and materials with the mode that adopts the high temperature, the second disinfection room is provided with hot air device, hot air device be used for to send into in the second disinfection room hot-blast in order to heat the second disinfection room.

2. The farming system of claim 1 wherein the enclosure is provided with a ratproof plate.

3. The farming system of claim 1 wherein the decontamination area comprises a personnel decontamination room including a first changing room, a bathroom and a second changing room in sequential communication, the first changing room being in communication with the doorway, the first changing room being configured to allow personnel to change clothing to access the bathroom decontamination area, the second changing room being configured to allow disinfected clothing to be changed by disinfected personnel to access the isolation area.

4. The aquaculture system according to claim 3, wherein a first door is provided between the first changing room and the bathroom, and a second door is provided between the bathroom and the second changing room, the first door being opened in a one-way direction from the first changing room to the bathroom, and the second door being opened in a one-way direction from the bathroom to the second changing room.

5. The farming system of claim 3, wherein the first changing room is provided with a duct communicating the first changing room and an outside of the first changing room, the duct being configured to send clothing changed by a person to the outside of the first changing room.

6. The farming system of claim 1, wherein a buffer zone is disposed in front of the doorway, the buffer zone configured to hold non-sterile supplies.

7. The farming system of claim 1 wherein a disinfection device is disposed between the isolation zone and the living zone, and between the living zone and the farming zone.

8. The farming system of claim 1, wherein the farming area comprises a plurality of farming rooms, each of the farming rooms being communicated through a closed corridor.

9. The farming system of claim 8 wherein the corridor opens an opening communicating with the exterior of the enclosure.

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