CN111838070A - Ecological breeding method of black-bone chickens - Google Patents
Ecological breeding method of black-bone chickens Download PDFInfo
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- CN111838070A CN111838070A CN202010760895.4A CN202010760895A CN111838070A CN 111838070 A CN111838070 A CN 111838070A CN 202010760895 A CN202010760895 A CN 202010760895A CN 111838070 A CN111838070 A CN 111838070A
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01K—ANIMAL HUSBANDRY; CARE OF BIRDS, FISHES, INSECTS; FISHING; REARING OR BREEDING ANIMALS, NOT OTHERWISE PROVIDED FOR; NEW BREEDS OF ANIMALS
- A01K67/00—Rearing or breeding animals, not otherwise provided for; New breeds of animals
- A01K67/02—Breeding vertebrates
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01K—ANIMAL HUSBANDRY; CARE OF BIRDS, FISHES, INSECTS; FISHING; REARING OR BREEDING ANIMALS, NOT OTHERWISE PROVIDED FOR; NEW BREEDS OF ANIMALS
- A01K39/00—Feeding or drinking appliances for poultry or other birds
- A01K39/01—Feeding devices, e.g. chainfeeders
Abstract
The invention discloses an ecological breeding method of black-bone chickens, and belongs to the field of black-bone chicken breeding methods. The method comprises the steps of establishing a chicken house on a flat slope, dividing the chicken house into a plurality of brooding rooms, determining the number of chickens in each brooding room, and installing a temperature and humidity control device in each brooding room; before brooding, spraying a 2000:1 disinfectant on the ground and the wall of a brooding room for disinfection, washing a trough clean, drying in the sun for standby, and building a half-meter high-cement enclosure wall in the brooding room; setting the temperature regulating device to be automatically regulated, and setting a specific temperature every week; the formula of the feed comprises 5% of sorghum flour, 10% of fish meal, 54.13% of corn flour, 5.0% of barley flour, 16.0% of bean cake powder, 4.0% of wheat bran powder, 3.0% of leaf powder, 2.5% of bone meal and 0.37% of salt, and the reasonable feeder is used for feeding, so that the labor cost is reduced, and the trouble of daily feeding is reduced.
Description
Technical Field
The invention belongs to the field of black-bone chicken breeding methods, and relates to an ecological breeding method of black-bone chickens.
Background
Black-bone chicken, also known as black-bone chicken, originates from tai and wushan county, Jiangxi province, China, where it has been raised for over 2000 years. There, they are not only dark in the beaks, eyes, feet, but also skin, chicken, bones and most internal organs. From the aspect of nutritive value, the nutrition of the black-bone chicken is far higher than that of the common chicken, the taste of the black-bone chicken is very tender, the medicinal and dietetic effects are more than those of the common chicken, and the black-bone chicken is called as rare dietetic rare poultry. It is called smooth bantam chicken in the United states, black-bone chicken is short, with small head and short neck. The black-bone chicken has white hair black bone, black hair black bone, mottled hair black bone, full black bone and white bone, and has the features of light weight, rich nutrients and early maturity. The hydrolyzed whole black-bone chicken powder contains 18 kinds of amino acids including 8 kinds of amino acids essential for human body, 10 kinds of amino acids are higher than that of common broiler chicken, and carotene and vitamin C are higher than those of common broiler chicken, so that it may be used in medicine. In addition, there are various trace elements and macroelements, such as calcium, phosphorus, iron, chlorine, sodium, potassium, magnesium, zinc, copper, etc.
The black-bone chicken is a good product for tonifying consumptive disease and nourishing the body, and the edible black-bone chicken has obvious functions of nourishing yin, tonifying the kidney, delaying senility and the like. The Taihe chicken analyzed in each place contains more than 19 amino acids, wherein the chicken blood contains 84.95mg/50ml amino acid, the chicken contains 71.39mg/100g, the chicken skin contains 72.16mg/100g, the chicken bone contains 30.88mg/100g, the chicken gallbladder contains 34.10mg/100g, and the Taihe chicken contains eight amino acids, melanin, B vitamins and 18 trace elements which are necessary for human bodies, and the cholesterol and fat content is very low. It has effects in regulating blood, removing blood waste, regulating immunity, and tonifying menstruation and senile asthenia caused by deficiency of both qi and blood.
Because the nutritive value of the black-bone chicken is very high, in order to improve economic benefit, a plurality of farmers use the additive for promoting growth, so that the growth speed of the black-bone chicken is accelerated, and the nutritive value of the black-bone chicken is seriously influenced.
Disclosure of Invention
The invention aims to: provides an ecological breeding method of black-bone chickens, and solves the defects of the problems.
The technical scheme adopted by the invention is as follows:
s1: selecting a chicken house to be built on a flat slope, dividing the chicken house into a plurality of brooding rooms, defining the number of chickens in each brooding room, and installing a temperature and humidity control device in each brooding room;
s2: before brooding, spraying a 2000:1 disinfectant on the ground and the wall of a brooding room for disinfection, washing a trough clean, drying in the sun for standby, and building a half-meter high-cement enclosure wall in the brooding room;
s3, setting the temperature control device to be automatically controlled, starting timing while placing the chicks, setting the temperature of the first brooding room to be 32-34 ℃ and setting the humidity to be 60-65%; the temperature of the brooding chamber in the second week is set to be 28-32 ℃, and the humidity is kept unchanged; setting the temperature of the brooding room in the third week to be 25-27 ℃, and keeping the humidity unchanged; the temperature of the brooding room at the fourth circumference is set to be 23-25 ℃, and the humidity is set to be 60%; the temperature of the brooding room after the fourth week is set to be 20 ℃, and the humidity is set to be 60%;
s4: feeding the chicks with 0.2 percent of potassium permanganate water after the chicks are out of the shell, and starting to eat after drinking for 2 to 4 hours;
s5: feeding the chicks within three days old with broken rice, sesame or millet soaked with boiled water by a feeding device;
s6: after three days, each hundred chicks are fed with 3-10 cooked eggs every day, and the feed is put into a feeding device, wherein the feed comprises 5% of sorghum flour, 10% of fish meal, 54.13% of corn flour, 5.0% of barley flour, 16.0% of bean cake flour, 4.0% of wheat bran flour, 3.0% of leaf powder, 2.5% of bone meal and 0.37% of salt;
s7: seven days later, about 15% of green feed was added to the feed.
Further: the feeding device comprises a storage bin; the storage bin consists of nine sub-bins with different volumes and sizes, and the heights of the sub-bins are the same; the sub-bins sequentially consist of a corn flour bin, a bean cake bin, a fish flour bin, a barley flour bin, a sorghum flour bin, a wheat bran flour bin, a leaf flour bin, a bone flour bin and a salt bin from left to right, and the volume proportion of the sub-bins is consistent with the formula proportion of the feed; the outer side of the sub-bin is provided with a conveyor belt, rollers and a processor which are matched with each other, and the processor is electrically connected with the rollers; the conveyor belts wrap the top and the bottom of the sub-bin; the sealing plates and the wire netting are sequentially arranged on the conveying belt in a staggered manner at equal intervals; a stirring bin is arranged below the conveyor belt; a material storage device is arranged below the stirring bin; a movable baffle is transversely arranged between the stirring bin and the material storage device.
Further: the connecting part of the conveyor belt and the roller is a belt.
Further: the stirring bin is cylindrical.
Further: the stirring storehouse comprises motor, pivot and scraper blade, and the length of scraper blade equals with the radius of the disc of stirring storehouse bottom.
Further: and a handle is welded at one end of the movable baffle.
In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:
1. according to the invention, the standard brooding rooms are set at the early stage, the number of chickens in a single brooding room is limited, and the living environment of the chickens is reasonably improved and the growth speed is increased through the temperature and humidity control device.
2. Through feeding the device, can place the different batching of fodder in the branch storehouse, and the volume size in branch storehouse is accomplished according to the ratio of fodder in proper order, secondly the restriction gets into and spills the batching in branch storehouse to gather all batchs the stirring, reduced the loaded down with trivial details nature and the accuracy nature of daily artificial ratio of fodder.
Drawings
In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and that for those skilled in the art, other relevant drawings can be obtained according to the drawings without inventive effort, wherein:
FIG. 1 is a schematic plan view of a feeding device of the present invention;
FIG. 2 is a schematic plan view of the conveyor belt of the present invention;
the labels in the figure are: 1-storage bin, 2-sub bin, 3-conveyor belt, 4-roller, 5-closing plate, 6-wire netting, 7-stirring bin, 8-storage device, 9-movable baffle, 10-motor, 11-rotating shaft, 12-scraper and 13-handle.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the detailed description and specific examples, while indicating the preferred embodiment of the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention. The components of embodiments of the present invention 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 present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without making any creative effort, shall fall within the protection scope of the present invention.
It is noted that relational terms such as "first" and "second," and the like, may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.
The features and properties of the present invention are described in further detail below with reference to examples.
Example one
The invention provides an ecological breeding method of black-bone chickens, which comprises the following steps:
s1: selecting a chicken house to be built on a flat slope, dividing the chicken house into a plurality of brooding rooms, defining the number of chickens in each brooding room, and installing a temperature and humidity control device in each brooding room;
s2: before brooding, spraying a 2000:1 disinfectant on the ground and the wall of a brooding room for disinfection, washing a trough clean, drying in the sun for standby, and building a half-meter high-cement enclosure wall in the brooding room;
s3, setting the temperature control device to be automatically controlled, starting timing while placing the chicks, setting the temperature of the first brooding room to be 32-34 ℃ and setting the humidity to be 60-65%; the temperature of the brooding chamber in the second week is set to be 28-32 ℃, and the humidity is kept unchanged; setting the temperature of the brooding room in the third week to be 25-27 ℃, and keeping the humidity unchanged; the temperature of the brooding room at the fourth circumference is set to be 23-25 ℃, and the humidity is set to be 60%; the temperature of the brooding room after the fourth week is set to be 20 ℃, and the humidity is set to be 60%;
s4: feeding the chicks with 0.2 percent of potassium permanganate water after the chicks are out of the shell, and starting to eat after drinking for 2 to 4 hours;
s5: feeding the chicks within three days old with broken rice, sesame or millet soaked with boiled water by a feeding device;
s6: after three days, each hundred chicks are fed with 3-10 cooked eggs every day, and the feed is put into a feeding device, wherein the feed comprises 5% of sorghum flour, 10% of fish meal, 54.13% of corn flour, 5.0% of barley flour, 16.0% of bean cake flour, 4.0% of wheat bran flour, 3.0% of leaf powder, 2.5% of bone meal and 0.37% of salt;
s7: seven days later, about 15% of green feed was added to the feed.
Example two
In this embodiment, on the basis of the first embodiment, the temperature of the first brooding room is set to be 32-36 ℃, and the humidity is set to be 60-65%; the temperature of the brooding chamber in the second week is set to be 28-32 ℃, and the humidity is kept unchanged; setting the temperature of the brooding room in the third week to be 25-27 ℃, and keeping the humidity unchanged; the temperature of the brooding room at the fourth circumference is set to be 23-25 ℃, and the humidity is set to be 60%; the temperature of the brooding room after the fourth week is set to be 20 ℃, and the humidity is set to be 60%; feeding the chicks with 0.2 percent of potassium permanganate water after the chicks are out of the shell, and starting to eat after drinking for 2 to 4 hours; after three days, each hundred chicks are fed with 4-8 cooked eggs every day, and the feed is put into a feeding device, wherein the formula of the feed comprises 6% of sorghum flour, 9% of fish meal, 54.13% of corn flour, 5.0% of barley flour, 16.0% of bean cake flour, 4.0% of wheat bran flour, 3.0% of leaf powder, 2.5% of bone meal and 0.37% of salt.
EXAMPLE III
In this embodiment, on the basis of the first embodiment, the temperature of the first brooding room is set to 33-35 ℃, and the humidity is set to 60-65%; the temperature of the brooding chamber in the second week is set to be 29-31 ℃, and the humidity is kept unchanged; setting the temperature of the brooding room in the third week to be 25-27 ℃, and keeping the humidity unchanged; the temperature of the brooding room at the fourth circumference is set to be 23-25 ℃, and the humidity is set to be 60%; the temperature of the brooding room after the fourth week is set to be 20 ℃, and the humidity is set to be 60%; feeding the chicks with 0.2 percent of potassium permanganate water after the chicks are out of the shell, and starting to eat after drinking for 2 to 4 hours; after three days, each hundred chicks are fed with 5-7 cooked eggs every day, and the feed is put into a feeding device, wherein the formula of the feed comprises 6% of sorghum flour, 9% of fish meal, 54.13% of corn flour, 4.0% of barley flour, 16.0% of bean cake flour, 5.0% of wheat bran flour, 3.0% of leaf powder, 2.5% of bone meal and 0.37% of salt.
Example four
In this embodiment, on the basis of the first embodiment, the temperature of the first brooding room is set to 34 ℃, and the humidity is set to 60% -65%; the temperature of the brooding chamber in the second week is set to be 30 ℃, and the humidity is kept unchanged; setting the temperature of the brooding room in the third week to be 25-27 ℃, and keeping the humidity unchanged; the temperature of the brooding room at the fourth circumference is set to be 23-25 ℃, and the humidity is set to be 60%; the temperature of the brooding room after the fourth week is set to be 20 ℃, and the humidity is set to be 60%; feeding the chicks with 0.2 percent of potassium permanganate water after the chicks are out of the shell, and starting to eat after drinking for 2 to 4 hours; after three days, each hundred chicks are fed with 6 cooked eggs every day, and the feed is put into a feeding device, wherein the formula of the feed comprises 7% of sorghum flour, 8% of fish meal, 54.13% of corn flour, 4.0% of barley flour, 16.0% of bean cake flour, 4.0% of wheat bran flour, 4.0% of leaf powder, 2.5% of bone meal and 0.37% of salt.
EXAMPLE five
In this embodiment, on the basis of the first embodiment, the temperature of the first brooding room is set to 34 ℃, and the humidity is set to 62% -64%; the temperature of the brooding chamber in the second week is set to be 30 ℃, and the humidity is kept unchanged; setting the temperature of the brooding room in the third week to be 25-27 ℃, and keeping the humidity unchanged; the temperature of the brooding room at the fourth circumference is set to be 23-25 ℃, and the humidity is set to be 60%; the temperature of the brooding room after the fourth week is set to be 20 ℃, and the humidity is set to be 60%; feeding the chicks with 0.2 percent of potassium permanganate water after the chicks are out of the shell, and starting to eat after drinking for 2 to 4 hours; after three days, each hundred chicks are fed with 6 cooked eggs every day, and the feed is put into a feeding device, wherein the formula of the feed comprises 7% of sorghum flour, 8% of fish meal, 55.13% of corn flour, 4.0% of barley flour, 16.0% of bean cake flour, 4.0% of wheat bran flour, 4.0% of leaf powder, 1.5% of bone meal and 0.37% of salt.
EXAMPLE six
In this embodiment, on the basis of the first embodiment, the feeding device comprises a storage bin 1; the storage bin 1 consists of nine sub-bins 2 with different volumes and sizes, and the heights of the sub-bins 2 are the same; the sub-bin 2 consists of a corn flour bin, a bean cake bin, a fish flour bin, a barley flour bin, a sorghum flour bin, a wheat bran flour bin, a leaf flour bin, a bone flour bin and a salt bin in sequence from left to right, and the volume proportion of the sub-bin 2 is consistent with the formula proportion of the feed; the outer side of the sub-bin 2 is provided with a conveyor belt 3, a roller 4 and a processor which are matched with each other, and the processor is electrically connected with the roller 4; the conveyor belt 3 wraps the top and the bottom of the sub-bin 2; the conveyor belt 3 is sequentially provided with a closing plate 5 and an iron wire 6 in a staggered manner at equal intervals; a stirring bin 7 is arranged below the conveyor belt 3; a material storage device 8 is arranged below the stirring bin 7; a movable baffle 9 is transversely arranged between the stirring bin 7 and the material storage device 8.
Further, the connection between the conveyor belt 3 and the roller 4 is a belt.
Further, the stirring bin 7 is cylindrical.
Further, the stirring bin (7) is composed of a motor (10), a rotating shaft (11) and a scraper (12), and the length of the scraper (12) is equal to the radius of the round surface at the bottom of the stirring bin (7).
Further, a handle 13 is welded to one end of the flapper 9.
When in work: putting corresponding ingredients into each sub-bin according to the formula proportion of the feed in a volume size proportion manner, wherein the cross section of the storage bin 1 is rectangular, the thickness of the storage bin is 6.5mm, the ingredients enter the sub-bins 2 from the storage bin 1, and the ingredients pass through a sealing plate 5 and a wire netting 6 which are arranged on a conveyor belt 3 at intervals in turn, wherein the diameter of the wire netting is 0.9mm, so that the sealing states of feeding and discharging of the sub-bins 2 are opposite, namely the wire netting 6 is arranged above the sub-bins 2 and the sealing plate 5 is arranged below the sub-bins 2 during feeding; during discharging, the wire netting 6 is arranged below the sub-bin 2, and the closing plate 5 is arranged above the sub-bin 2. The processor model is AMD Ryzen 72700X, the processor controls the roller 4 to rotate according to the distance of the wire 6 from the closing plate 5, so that the roller 4 just rotates to the position where the wire 6 just rotates with the closing plate 5 from the rotation to the stop. When all ingredients enter the stirring bin 7, the motor 10 rotates to drive the rotating shaft 11 and the scraping plate 12 to rotate, wherein the motor 10 is an LH-130 straight plastic speed reducing motor with rated voltage of 1.5-4.5V, rotating speed of 74.5rpm and rated current of 0.1A. All ingredients are mixed and stirred, then the movable baffle 9 is taken away, and the stirred ingredients fall into the storage device 8 for the chicks to eat.
The above description is only for the purpose of illustrating the preferred embodiments of the present invention and should not be taken as limiting the scope of the present invention, and any modifications, equivalents and improvements made by those skilled in the art within the spirit and principle of the present invention should be included in the scope of the present invention.
Claims (6)
1. An ecological breeding method of black-bone chickens is characterized by comprising the following steps: the method comprises the following steps:
s1: selecting a chicken house to be built on a flat slope, dividing the chicken house into a plurality of brooding rooms, defining the number of chickens in each brooding room, and installing a temperature and humidity control device in each brooding room;
s2: before brooding, spraying a 2000:1 disinfectant on the ground and the wall of a brooding room for disinfection, washing a trough clean, drying in the sun for standby, and building a half-meter high-cement enclosure wall in the brooding room;
s3, setting the temperature control device to be automatically controlled, starting timing while placing the chicks, setting the temperature of the first brooding room to be 32-34 ℃ and setting the humidity to be 60-65%; the temperature of the brooding chamber in the second week is set to be 28-32 ℃, and the humidity is kept unchanged; setting the temperature of the brooding room in the third week to be 25-27 ℃, and keeping the humidity unchanged; the temperature of the brooding room at the fourth circumference is set to be 23-25 ℃, and the humidity is set to be 60%; the temperature of the brooding room after the fourth week is set to be 20 ℃, and the humidity is set to be 60%;
s4: feeding the chicks with 0.2 percent of potassium permanganate water after the chicks are out of the shell, and starting to eat after drinking for 2 to 4 hours;
s5: feeding the chicks within three days old with broken rice, sesame or millet soaked with boiled water by a feeding device;
s6: after three days, each hundred chicks are fed with 3-10 cooked eggs every day, and the feed is put into a feeding device, wherein the feed comprises 5% of sorghum flour, 10% of fish meal, 54.13% of corn flour, 5.0% of barley flour, 16.0% of bean cake flour, 4.0% of wheat bran flour, 3.0% of leaf powder, 2.5% of bone meal and 0.37% of salt;
s7: seven days later, about 15% of green feed was added to the feed.
2. The ecological breeding method of black-bone chickens according to claim 1, characterized in that: the feeding device comprises a storage bin (1); the storage bin (1) consists of nine sub-bins (2) with different volumes, and the heights of the sub bins (2) are the same; the sub-bin (2) consists of a corn flour bin, a bean cake bin, a fish flour bin, a barley flour bin, a sorghum flour bin, a wheat bran flour bin, a leaf flour bin, a bone flour bin and a salt bin from left to right in sequence, and the volume proportion of the sub-bin (2) is consistent with the formula proportion of the feed; the outer side of the sub-bin (2) is provided with a conveyor belt (3), a roller (4) and a processor which are matched with each other, and the processor is electrically connected with the roller (4); the conveyor belt (3) wraps the top and the bottom of the sub-bin (2); the conveyor belt (3) is sequentially provided with a closing plate (5) and an iron wire net (6) in a staggered manner at equal intervals; a stirring bin (7) is arranged below the conveyor belt (3); a material storage device (8) is arranged below the stirring bin (7); a movable baffle (9) is transversely arranged between the stirring bin (7) and the material storage device (8).
3. The ecological breeding method of black-bone chickens according to claim 2, characterized in that: the connecting part of the conveyor belt (3) and the roller (4) is a belt.
4. The ecological breeding method of black-bone chickens according to claim 2, characterized in that: the stirring bin (7) is cylindrical.
5. The ecological breeding method of black-bone chickens according to claim 4, characterized in that: the stirring bin (7) is composed of a motor (10), a rotating shaft (11) and a scraping plate (12), and the length of the scraping plate (12) is equal to the radius of a circular surface at the bottom of the stirring bin (7).
6. The ecological breeding method of black-bone chickens according to claim 2, characterized in that: and a handle (13) is welded at one end of the movable baffle (9).
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