CN111685080A - Comprehensive healthy culture management method for large farm - Google Patents

Abstract

The invention discloses a comprehensive management method for healthy breeding of a large farm, belonging to the field of chicken breeding, and the comprehensive management method for healthy breeding of the large farm comprises the following steps of S00, dividing chickens into a plurality of batches; step S10, dividing the free-range breeding site into a plurality of captive breeding areas, and arranging a safe interval area between every two captive breeding areas; step S20, arranging a connecting bridge above each safe interval area so as to connect two adjacent captive areas; and step S30, breeding each batch of chickens in different captive areas respectively, and transferring the chickens to another captive area for breeding after breeding for a period of time through the connecting bridge. The large-scale outbreak of diseases can be avoided by dividing the stable area into a plurality of captive areas, the cross infection between two adjacent captive areas can be avoided by the arrangement of the safe spacer area and the connection effect of the connecting bridge in the space, and the large-scale outbreak of diseases can be effectively avoided.

Description

Comprehensive healthy culture management method for large farm

Technical Field

The invention relates to the field of chicken breeding, in particular to a comprehensive management method for healthy breeding in a large farm.

Background

Poultry refers to birds that are artificially kept, not only for the purpose of obtaining their highly nutritious meat and eggs, but also for the purpose of obtaining their highly economically profitable feathers and manure. Of the large family of poultry, chickens are one of the most common birds raised by humans. The chicken has long history culture, is a commodity with large human consumption, and particularly has increasing chicken demand with the continuous development of economy and the continuous improvement of living standard of people. The chickens raised in the rural areas are small in breeding scale and not centralized, and most farmers are not trained professionally, so that the breeding method is unscientific, low in yield, high in price and low in profit rate. Therefore, a scientific and reasonable method for ecologically breeding chickens is urgently needed, so that farmers can scientifically and reasonably breed chickens. On one hand, the income of farmers can be increased, and on the other hand, stocking chickens which are reasonable in price, tender in meat quality, delicious in taste, high in quality and capable of meeting the requirements of green food are provided for the market, are green and healthy, but are long in breeding time and low in survival rate, and the requirements of people on chickens are difficult to meet.

Chinese patent document CN107801683A discloses a method for breeding ecological local chickens, which comprises the following steps: (1) selecting and distributing a farm: (2) breeding chicken seeds; (3) feeding management, a first stage: feeding the chickens from 3 days to 15 days old indoors; and a second stage: breeding in a stocking area and a pasture area for 16-45 days, and returning to the chicken house after stocking; and a third stage: breeding for 46-150 days, stocking in stocking areas and pasture areas, wherein during stocking, local chickens move while searching for the green insects and the pasture, and move back to a chicken house after stocking, (4) preventing diseases: the chicken coop is disinfected every 15 days, and the parasite expelling prevention vaccine is injected every 2 months.

The existing farms generally breed chicken flocks in a mixed way, are easy to concentrate large-scale outbreaks and are difficult to manage; some of the cultivation in different areas are also easy to have the risk of cross infection diseases.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention aims to provide a comprehensive healthy breeding management method for a large farm, which manages chicken flocks in space, avoids mass and concentrated morbidity of the chicken flocks, and can feed the chicken flocks in different regions respectively in a targeted manner so as to ensure that the chicken flocks grow healthily.

In order to achieve the purpose, the invention adopts the following technical scheme:

the invention provides a comprehensive management method for healthy breeding in a large farm, which comprises the following steps of S00, dividing chickens into a plurality of batches; step S10, dividing the free-range breeding site into a plurality of captive breeding areas, and arranging a safe interval area between every two adjacent captive breeding areas; step S20, arranging a connecting bridge above each safe interval area to connect two adjacent captive areas; and step S30, breeding each batch of chickens in different captive areas respectively, and transferring the chickens to another captive area for breeding after breeding for a period of time through the connecting bridge. The containment areas are divided into a plurality of containment areas, so that large-scale outbreak of diseases can be avoided, the arrangement of the safe compartment areas and the connection effect of the connecting bridges in the space can avoid cross infection between two adjacent containment areas, and the large-scale outbreak of diseases can be effectively avoided.

In a preferred embodiment of the present invention, in step S20, one end of the connecting bridge is located in one of the housing areas, and the other end of the connecting bridge is located above the other housing area. And a space connection mode is adopted, so that the probability of cross infection between two adjacent captive areas is effectively isolated. While making the safe compartment less susceptible to contamination.

The invention preferably adopts the technical scheme that in the step S20, the other end of the connecting bridge is connected with a lifting sling so as to adjust the height of the other end of the connecting bridge. The chicken flocks are required to fly down from a high position, so that the wings of the chickens can be exercised to a certain extent, and meanwhile, the heights of the chickens can be adjusted to different heights for different days, so that the chicken flocks are prevented from being broken. The health condition of the chicken flocks can be conveniently observed in the flying process.

The invention preferably adopts the technical scheme that in the step S00, the chickens are installed and divided into a plurality of batches according to the age of the day, so that the slaughtering time of the chickens can be conveniently controlled and managed.

The present invention preferably provides that, in step S30, after the chickens are transferred to another of the housing areas through the connecting bridge, the housing area is sterilized, and after a certain period of time, the chickens in the other housing area are transferred to the housing area. Effective disinfection can avoid cross-infection.

The invention preferably provides that, in step S10, the secure compartment is sterilized after each transfer of the flock via the connecting bridge above the secure compartment. The risk of mutual infection is reduced to the maximum extent.

The invention preferably adopts the technical scheme that in the step S30, each captive area is separately supplied with water sources, and the water sources are replaced after transferring each batch of chickens, so that cross infection caused by the water sources is avoided.

The invention preferably adopts the technical scheme that an identity two-dimensional code is arranged on each chicken foot, and in the step S30, when each chicken reaches each captive breeding area, the identity two-dimensional code is collected. Can know the time of each chicken in which captive area, which is convenient for health management.

The invention has the beneficial effects that:

the invention provides a comprehensive management method for healthy breeding in a large farm, which comprises the following steps of S00, dividing chickens into a plurality of batches; step S10, dividing the free-range breeding site into a plurality of captive breeding areas, and arranging a safe interval area between every two adjacent captive breeding areas; step S20, arranging a connecting bridge above each safe interval area to connect two adjacent captive areas; and step S30, breeding each batch of chickens in different captive areas respectively, and transferring the chickens to another captive area for breeding after breeding for a period of time through the connecting bridge. The containment areas are divided into a plurality of containment areas, so that large-scale outbreak of diseases can be avoided, the arrangement of the safe compartment areas and the connection effect of the connecting bridges in the space can avoid cross infection between two adjacent containment areas, and the large-scale outbreak of diseases can be effectively avoided.

Drawings

FIG. 1 is a schematic plan view of a division of a farm area provided in an embodiment of the present invention;

FIG. 2 is a schematic side view of a division of a farm area provided in an embodiment of the present invention;

in the figure:

1. a captive area; 2. a connecting bridge; 3. a safe interval area; 21. a lifting sling.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

Example one

A comprehensive management method for healthy breeding in a large farm comprises the following steps of S00, taking a large batch of chickens with small age in days as an example, averagely dividing the chickens into a plurality of batches according to a certain quantity; step S10, dividing the free-ranging site into a plurality of captive areas 1, and arranging a safety interval area 3 between every two captive areas 1; can effectively isolate two adjacent captive breeding areas 1 and simultaneously can facilitate the passing of breeding personnel. Step S20, arranging a connecting bridge 2 above each safe interval area 3 to connect two adjacent captive areas 1; and step S30, respectively breeding each batch of chickens in different captive areas 1, and transferring the chickens to another captive area 1 for breeding after a period of breeding time through the connecting bridge 2. For example, the chickens are evenly distributed to different captive areas 1 to be separately bred 15 in 15-16 days of breeding in each area, and at least one area is left vacant. After 15 days of cultivation, a batch of chickens adjacent to the vacant housing area 1 is transferred from the air into the vacant housing area 1 through the connecting bridge 2. Then the chickens are transferred in sequence after being disinfected, and are killed when no chickens exist in the captive breeding area 1, different spaces are killed in sequence, the utilization rate of the spaces is improved, and meanwhile, the chickens are prevented from eating the disinfectant by mistake.

Preferably, in step S20, one end of the connecting bridge 2 is located in one of the housing areas 1, and the other end of the connecting bridge 2 is located above the other housing area 1. The two adjacent captive areas 1 are connected through the space, so that the space utilization rate is improved, and meanwhile, the risk of cross infection of the adjacent captive areas 1 is effectively isolated through the space connection mode, so that the safe interval area 3 between the two adjacent captive areas 1 can be effectively isolated. Further, in step S20, the other end of the connecting bridge 2 is connected with a lifting sling 21 to adjust the height of the other end of the connecting bridge 2. The chickens can only be transferred from one captive area 1 to another captive area 1 and cannot be reversely transferred, and control and management are facilitated. Meanwhile, a certain height is set, so that the chicken flock jumps down from the high position, and the wing part of the chicken flock can be trained.

Preferably, in step S30, after the chickens are transferred to the other housing area 1 through the connecting bridge 2, the housing area 1 is sterilized, and after a certain time, the chickens in the other housing area 1 are transferred to the housing area 1. Further, in step S10, the secure compartment 3 is sterilized after each transfer of the flock through the connecting bridge 2 above the secure compartment 3. During the sterilization, the used connecting bridges 2 need to be sterilized at the same time. Cross-contamination between different housing areas 1 is avoided.

Preferably, in step S30, each of the housing areas 1 is supplied with water separately and replaced after each batch of chickens has been transferred. Ensure that no cross infection is caused between water sources.

The method is convenient for recording the areas where the chickens arrive and is convenient for health management; preferably, an identity two-dimensional code is set on each chicken foot, and in step S30, each chicken collects the identity two-dimensional code when reaching each captive area 1. The time period of each chicken in which the chicken has arrived in which housing area 1 can be recorded, the time and space are uniformly recorded, and the health condition of the chicken flocks is efficiently managed.

Example two

In this embodiment, a plurality of batches of chickens with different ages in days are taken as an example, and in step S00, the chickens are divided into several batches according to the age of the day, so that the slaughtering time of the chickens can be controlled and managed conveniently. Meanwhile, chickens of different ages in days are fed with different feeds in a targeted mode, the growth speed of the chickens is improved, the healthy management and control are facilitated, different elements are supplemented at different periods, and meanwhile the morbidity probability of the chickens at different production periods is different. Meanwhile, the chickens are bred in different captive breeding areas 1 at different days of age, and the chickens are bred efficiently and healthily through comprehensive management and control of time and space.

Step S10, dividing the free-ranging site into a plurality of captive areas 1, and arranging a safe interval area 3 between two adjacent captive areas 1; can effectively isolate two adjacent captive breeding areas 1 and simultaneously can facilitate the passing of breeding personnel. Step S20, arranging a connecting bridge 2 above each safe interval area 3 to connect two adjacent captive areas 1; and step S30, respectively breeding each batch of chickens in different captive areas 1, and transferring the chickens to another captive area 1 for breeding after a period of breeding time through the connecting bridge 2. For example, the chickens are bred in each area for 15-16 days, the chickens are evenly distributed to different captive areas 1 to be bred for 15 days separately, and at least one area is left vacant. After 15 days of cultivation, a batch of chickens adjacent to the vacant housing area 1 is transferred from the air into the vacant housing area 1 through the connecting bridge 2. Then transfer in proper order after the disinfection, kill when the area 1 of pens does not have the chicken crowd, kill different spaces in proper order simultaneously, improve the utilization ratio in space, avoid the chicken crowd to eat the disinfection liquid medicine by mistake simultaneously.

Preferably, in step S20, one end of the connecting bridge 2 is located in one of the housing areas 1, and the other end of the connecting bridge 2 is located above the other housing area 1. The connecting bridge 2 is divided into two sections, one section is placed in a captive breeding area 1 for the inclined plane section, the other section of connecting bridge 2 is connected with the inclined plane section in a rotating mode, the other section of connecting bridge 2 is connected with a lifting sling 21, the height of the position can be controlled, the end of the connecting bridge 2 is lifted for the older chickens in the day, the chickens need to fly a higher distance, and the wings of the chickens can be better exercised. The two adjacent captive areas 1 are connected through the space, the space utilization rate is improved, and meanwhile, the risk of cross infection of the adjacent captive areas 1 is effectively isolated through the space connection mode, so that the safe interval area 3 between the two adjacent captive areas 1 can be effectively isolated. Further, in step S20, the other end of the connecting bridge 2 is connected with a lifting sling 21 to adjust the height of the other end of the connecting bridge 2. The chicken flocks can only be transferred from one captive area 1 to another captive area 1 and cannot be transferred reversely, and control and management are facilitated. Meanwhile, a certain height is set, so that the chicken flock jumps down from the high position, and the wing part exercise of the chicken flock is facilitated.

Preferably, in step S30, after the chickens are transferred to the other housing area 1 through the connecting bridge 2, the housing area 1 is sterilized, and after a certain time, the chickens in the other housing area 1 are transferred to the housing area 1. Further, in step S10, the secure compartment 3 is sterilized after each transfer of the flock through the connecting bridge 2 above the secure compartment 3. During the sterilization, the used connecting bridges 2 need to be sterilized at the same time. Cross-contamination between different housing areas 1 is avoided.

Preferably, in step S30, each of the housing areas 1 is supplied with water separately and replaced after each batch of chickens has been transferred. Ensure that no cross infection is caused between water sources.

The method is convenient for recording the areas where the chickens arrive and is convenient for health management; preferably, an identity two-dimensional code is set on each chicken foot, and in step S30, each chicken collects the identity two-dimensional code when reaching each captive area 1. The time period of each chicken in which the chicken has arrived in which housing area 1 can be recorded, the time and space are uniformly recorded, and the health condition of the chicken flocks is efficiently managed.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the spirit and scope of the invention. The present invention is not to be limited by the specific embodiments disclosed herein, and other embodiments that fall within the scope of the claims of the present application are intended to be within the scope of the present invention.

Claims (9)

1. A comprehensive management method for healthy cultivation in a large farm is characterized by comprising the following steps:

the method comprises the following steps of S00, dividing the chickens into a plurality of batches;

step S10, dividing the free-ranging site into a plurality of captive areas (1), and arranging a safe interval area (3) between every two captive areas (1);

step S20, arranging a connecting bridge ((2) over each safe interval area (3) to connect two adjacent housing areas (1);

and step S30, breeding each batch of chickens in different captive areas (1) respectively, and transferring the chickens to another captive area (1) for breeding after breeding for a period of time through the connecting bridge ((2).

2. The comprehensive management method for healthy cultivation in large farms according to claim 1, comprising:

in step S20, one end of the connecting bridge ((2) is located in one of the housing areas (1), and the other end of the connecting bridge ((2) is located above the other housing area (1).

3. The comprehensive management method for healthy cultivation in large farms according to claim 2, comprising:

in step S20, a lifting sling (21) is connected to the other end of the connecting bridge ((2) to adjust the height of the other end of the connecting bridge ((2)).

4. The comprehensive management method for healthy cultivation in large farms according to claim 1, comprising:

in step S00, the chickens are installed and divided into several batches according to their day ages, so as to control and manage the slaughtering time of the chickens.

5. The comprehensive management method for healthy cultivation in a large farm according to any one of claim 1, wherein:

in step S30, after the chickens are transferred to another one of the housing areas (1) through the connecting bridge ((2), the housing area (1) is sterilized, and after a while, the chickens in the other one of the housing areas (1) are transferred to the housing area (1).

6. The comprehensive management method for healthy cultivation in large farms according to claim 1, comprising:

in step S10, the secure compartment (3) is sterilized after each passage of the chicken flock through the connecting bridge ((2) above the secure compartment (3).

7. The comprehensive management method for healthy cultivation in large farms according to claim 1, comprising:

in step S30, each of the housing areas (1) is supplied with water separately and replaced after each batch of chickens has been transferred.

8. The comprehensive management method for healthy cultivation in large farms according to claim 1, comprising:

an identity two-dimensional code is arranged on each chicken foot, and in step S30, when each chicken reaches each captive breeding area (1), the identity two-dimensional code of each chicken is collected.

9. The comprehensive management method for healthy cultivation in a large farm according to any one of claims 4, wherein:

in step S10, feeding is performed separately for different housing areas (1) to accommodate different growth stages of the flock.

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