Method for growing of broiler chickens

FIELD: poultry farming.

SUBSTANCE: method involves exposing chickens having age of several days to low-intensity laser radiation; exposing broiler chickens of 1-day age to 10-min aeroionization procedure, followed by low-intensity laser radiation through information biologically-active matrix.

EFFECT: increased live weight of broiler chickens reached during short period of time.

1 dwg, 4 tbl

 

The invention relates to agriculture, namely, to industrial technology for production of broiler meat, and can be used in biology and agriculture.

Known method of biostimulation poultry, which is the irradiation of eggs before laying on the incubation of the optical radiation formed to enhance the biostimulating effect, injection semiconductor radiation source with the dose of exposure 1-1000 j/m2in particular injection semiconductor laser, led or led with the polarizer (see EN NO. 2101939, AND 01 TO 41/00, 1998).

The disadvantage of this method is the high dose exposure to a radiation source, resulting in low efficiency biostimulating effect.

There is a method of rearing poultry, which is the irradiation of eggs before placing in the incubator or Chicks first days of life defocused low-intensity laser radiation of 0.87-0.98 μm, with a capacity of not more than 1.0 W/CSM, exposure 1-10 minutes modulate the Laser radiation frequency in the range of 10-2000 Hz (see EN NO. 2119747, AND 01 TO 31/00, 1998) prototype.

The disadvantage of this method is the defocusing of the laser, which leads to the decrease of biostimulating effect.

The task of the invention is to increase the high body weight of broiler is promptly growing by stimulating digestion and improve metabolism of broiler chickens.

This object is achieved in that broiler chickens at day old is exposed to a ten-minute ionization (AI), followed by low-intensity laser radiation (NEELY) through the information of biologically active matrix (IBAM).

The advantage of this method is that the use of ten-AI with the subsequent effect of LLLT through IMAM leads to a significant increase in live weight of broilers (aged implementing 39 days) due to the stimulation of digestion, improve metabolism and more efficient use of nutrients complete feed in the body of a chicken.

The drawing shows a scheme of low-intensity impact on the region of the breast meat chickens laser infrared range through IBM where:

1 - IR laser,

2 - Laser radiation,

3 - IBAM,

4 - chicken broiler.

Features of the method of growing broiler chickens are as follows. Clinically healthy day old Chicks were formed in four separate groups (16 goals in each of the cells) with regard to the origin, age and body weight. Each group consisted of one control and four experimental groups. Broiler chickens were fed with standard animal feed, in which the content of the exchange of energy, nutrients, and b is logicheskie active substances consistent with existing recommendations. Each experimental group was exposed to ten-AI with the subsequent effect of LLLT through IBM with different components. As a component IBM used flour rind of pomegranate (table 1), Mandarin (table 2), lemon (table 3) and biologically active additives (BAA) chavanprash (table 4). While performing experiments were carried out determination of live weight of broiler chickens at day old, then at 7, 14, 21, 28 days and immediately before slaughter - at 39 days.

Low-intensity impact WHETHER the infrared range was carried out by a semiconductor laser apparatus "Pattern-2K-Super beam which is closed IBAM consisting of paper or glass container with a biologically active substance to the region of the breast of the chicken with the following parameters: wavelength of 890 nm, pulse duration of 260 NS, the pulse repetition frequency of 80 Hz, the radiation power of 0.3 watts, exposure radiation 8,15, 30 and 60 s (see drawing).

At the end of the experiments were conducted slaughter, indicators slaughter was determined by the method of ministate.

The results of the experiments showed ahead of liveweight gain of broiler chickens of all experimental groups compared with the control group at 39 days of cultivation.

The tests showed the effectiveness of ionization of the hall of the house alone and in combination with the subsequent impact of the NEELY on liveweight gain of broiler chickens, as evidenced by the improvement of their growth, development and body weight (see tables 1, 2, 3, 4). So, when using ten-AI meat chickens from the experimental group increased its initial mass in 30,44 times, whereas in the control only in 20,42 times. Subsequent low-intensity impact WHETHER depended view of the component IBM, and radiation exposure. In General, increasing the initial live weight of broiler chickens ranged from 23,93 to 35,67 times. The maximum value of this index is obtained in the case of use as components IBM "chavanprash" (table 4) when the exposure NEELY 30 and 8 seconds, and was 35,67 and 30,13 times. In the case of the use as a component IBM flour lemon peel (table 3) and garnet (table 1) the highest values of this index have been obtained with the exposure radiation 30 and 8 seconds, respectively, and was 27,53 and 27,17 times.

Meat chickens experimental groups differed from the control group are more massive. It has been noted that high values of the measurements of the articles (body length, width and girth of chest, length of keel).

At slaughter weight not drawn, polupotroshenom and gutted carcasses, as well as the output of the gutted carcasses of broiler chickens in experimental groups were higher than the same parameters in the control. The weight of several organs and muscles also exceeded targets. This applies to the mass of the breast, the thigh is the major muscles, as well as the mass of the neck, liver and heart.

Thus, for the same expenditure of feed, but with different impacts on the body, the intensity of the growth and development of broiler chickens increases. Note that the effectiveness of LLLT depends on the exposure radiation and types of components used IBM.

This method was tested on the poultry farm JSC "agro-industrial concern Novgorod the Great".

The method of growing broiler chickens, including the exposure of chickens the first days of life of low-intensity laser radiation, characterized in that the broiler chickens at day old exposed to ten-ionization followed by low-intensity laser radiation through the information bioactive matrix.



 

Same patents:

FIELD: electric engineering.

SUBSTANCE: pasteurizer has cellular drum with sprocket for outputting eggs from cells and cellular rotor in screen case made of non-ferrous material. There is unloading window in case and set of electrodes of high-frequency generator, which set is made in form of rings disposed in parallel. Dielectric rotor with cells is disposed between set of rings for rotation. Thin liquid outer layer, adjacent to under-shell film, is stabilized.

EFFECT: improved efficiency of operation.

1 dwg

FIELD: agricultural engineering.

SUBSTANCE: irradiation apparatus has start regulating device with contact mains wires, gas discharge lamp chuck, and reflector attachment device. Apparatus is further equipped with two photo-resistors connected to inductance coil and located on reflector internal surface. Inductance coil with winding and core is positioned centrally on casing. Isolating insert is located between casing and core. Receptacle surface of photo-resistors is turned to internal surface of reflector and is made in the form of wavy strip extending through the entire length of reflector at its both sides, symmetrically to edge of emitter. Casing is connected to attachment device through vibration isolators.

EFFECT: increased efficiency in protecting of lightening equipment from settling of dust thereon and reduced consumption of power.

2 dwg

FIELD: agricultural engineering.

SUBSTANCE: installation has gas discharge lamp, mercury-quartz lamp, germicidal lamps, and helium-neon laser. Installation is furnished with infrared laser for deep heating of incubation eggs by way of multiple-mode pulsed laser radiation of proximate infrared spectral region.

EFFECT: increased vitality and productivity of birds.

2 dwg

FIELD: optics; laser engineering.

SUBSTANCE: assembly has gas-discharge lamp ДНЕСГ-500, helium-neon laser ЛГН-104, mercury-quartz lamp ДРТ-400 and germicidal lamps БУВ-15 as well as cassettes of optical filters of lamps ДНЕСГ--500, ДРТ-400, БУВ-15. There are also three germicidal lamps БУВ-30 disposed at angle of 120° to incubation eggs and IR laser "Uzor" of cassette of optical filter of lamp БУВ-30. Cassettes of optical filters of lamps ДНЕСГ-500, БУВ-30, ДРТ-400, БУВ-15 are decompressed at the direction of radiant chamber for complex influence onto incubation eggs with laser beams, ozone and ionized air and for disinfecting eggs at all the sides.

EFFECT: reduced energy consumption; improved productivity; higher vital capacity.

5 dwg

FIELD: radiation technology.

SUBSTANCE: unit has gas-discharge lamp ДНЕСГ-500, helium-neon laser ЛГН-104, ultraviolet lamp ДРТ-400, germicidal lamps БУВ-15. Germicidal lamps БУВ-30 are placed in cassette of optical filter of gas-discharge lamp ДНЕСГ-500 and under transporting mechanism for irradiation of total surfaces of incubation eggs to improve germicidal effect.

EFFECT: improved quality of disinfection; improved farming-biological efficiency.

3 dwg

Laser beams scanner // 2265997

FIELD: optics.

SUBSTANCE: scanner has mirrors. Ten mirrors are mounted onto truncated cone of scanner at different angles to light source for scanning laser beams at direction of lightening chamber and for increase in exposure of processing.

EFFECT: reduced electric energy consumption.

1 dwg

FIELD: poultry farming.

SUBSTANCE: incubation eggs are treated with aqueous solution of edible salt, with sea salt being additionally introduced, said components being used in the following ratio, g/l: NaCl 2.5-3.5; sea salt 0.3-0.5. Method involves preparing aqueous solution of edible salt by double distillation of sodium chloride solution and adding sea salt during repeated distillation procedure; treating incubation eggs by aerosol applying process, with following exposing for 30-60 min.

EFFECT: increased efficiency in treatment of eggs.

3 cl, 1 tbl, 1 ex

FIELD: poultry farming.

SUBSTANCE: method involves withdrawing material from multiplicity of live eggs; analyzing withdrawn material for identifying of eggs having predetermined characteristic; treating in proper manner.

EFFECT: increased efficiency by providing the possibility of analyzing withdrawn material and performing proper treatment.

58 cl, 54 dwg

FIELD: poultry industry.

SUBSTANCE: claimed method includes treatment of incubating egg shell with mitomin in concentration of 0.3-0.5 % and in amount of 2.2-2.5 ml/120-150 eggs.

EFFECT: increased egg hatching, decreased mortality; daily chickens with improved biochemical blood characteristics.

5 ex, 5 tbl

FIELD: poultry science.

SUBSTANCE: incubation eggs should be once treated with ultraviolet lamp for 20 sec or ozonized, then sprayed with 0.01-0.3%-succinic acid solution at 1.2-1.5 ml/120-150 eggs to increased the brood in chickens, decrease lethality and increase body weight in chickens.

EFFECT: higher efficiency of stimulation.

6 ex, 6 tbl

FIELD: agriculture, in particular, poultry farming.

SUBSTANCE: method involves keeping cocks from 17-week age to the end of utilization time in cages under intermittent illumination conditions with triple alternation of light and darkness periods; setting first light period of from 5 hours to 6 hours, second period of 8 hours to 12 hours and third period of from 13 hours to 17 hours.

EFFECT: reduced live weight, improved quality of sperm production, increased impregnation capacity of eggs and reduced feed consumption.

3 tbl

Bird cage set // 2280980

FIELD: housing birds.

SUBSTANCE: bird cage set comprises collector for dung, passage diverging downward and defined by cages, ventilation passages provided with ports, and fan connected with the distributing air ducts. The front grid and bottoms of the cages as well as the bearing stiffening ribs are made of dielectric materials. The ports in the passages are overlapped with grids made of conducting materials, and their mesh size do not exceed the mesh size of the cages. The grids are connected with the negative poles of the air ionizers.

EFFECT: improved bird housing.

2 dwg

Bird cage // 2280979

FIELD: housing birds.

SUBSTANCE: bird cage comprises back wall, sides, and front wall, door made in the front wall, feeder, floor mounted with an inclination to the front wall, and egg-collecting chute. The floor is made of interconnected parallel racks. The cage is provided with the baffle secured to the floor that can move over the transverse racks of the frame. One side of the egg-collecting chute is pivotally connected with the floor. The second side of the chute is connected with the cage frame via a spring. The feeder is mounted with a spaced relation to the floor.

EFFECT: improved design and enhanced convenience of servicing.

1 dwg

Emitter for animals // 2261593

FIELD: agriculture.

SUBSTANCE: emitter has illumination fittings incorporating infrared radiation source and ultraviolet lamp. Ultraviolet emitter is formed as ring, within the cavity of which round-symmetric infrared radiation source is located. Infrared radiation source is equipped with hood having half-moon shaped channels and is positioned for displacement along vertical axis by means of bimetallic plates. Bimetallic plates are arranged above each of said channels and are immovably secured with their one end to case and with their other end to hood outer surface. Emitter case is made in the form of hemi-sphere with round base.

EFFECT: increased efficiency in irradiating of animals.

2 cl, 4 dwg

FIELD: agriculture.

SUBSTANCE: method involves growing quails in cage batteries with differentiated setting density and providing local heating in each of the cages; providing setting density per 1 head: from 1 day to 14 days - 40 cm2, from 15 days to 21 days - 60 cm2; from 22 days to 49 days 100 cm2; keeping intermittent heating mode by means of infrared lamps with power of 300 W according to following pattern: from 1 day to 21 days - 30 min heating, 15 min switching off, from 22 days to 49 days - switching off heaters, with temperature in poultry house being maintained at 20-22°C level.

EFFECT: increased retention and productivity of poultry and reduced consumption of power.

2 tbl

FIELD: agriculture, in particular, poultry farming.

SUBSTANCE: apparatus has axial-flow draft fans arranged in longitudinal-vertical coordinate planes extending through middle portion of doubled cage batteries. Guiding screens mix air flows while hazard gasses generated by birds and released from bird dung are fully assimilated. Before being discharged from poultry house, contaminated air is disinfected with disinfecting solution sprayed by nozzles positioned above each draft fan, to thereby disinfect air delivered into ambient air.

EFFECT: improved sanitary and hygienic bird keeping conditions, reduced consumption of power, increased efficiency in ventilation of space inside cage and disinfection of contaminated air at poultry house outlet opening.

1 dwg, 3 tbl

The invention relates to agricultural production, particularly poultry
The invention relates to the field of agriculture and nature protection, in particular to methods for recovery of bird populations in anthropogenic landscapes for adequate and uniform distribution of nesting birds on land previously intensive tillage, released now from the turnover-prone steppe formation, and can be advantageously used in systems of man-made forests, cultivated terraced planting or sowing, in protected areas of the steppe zone and in areas of virgin and fallow soils

The invention relates to agricultural production, particularly poultry

The invention relates to poultry, in particular to the battery cell for poultry, mainly quail

FIELD: agriculture, in particular, poultry farming.

SUBSTANCE: apparatus has axial-flow draft fans arranged in longitudinal-vertical coordinate planes extending through middle portion of doubled cage batteries. Guiding screens mix air flows while hazard gasses generated by birds and released from bird dung are fully assimilated. Before being discharged from poultry house, contaminated air is disinfected with disinfecting solution sprayed by nozzles positioned above each draft fan, to thereby disinfect air delivered into ambient air.

EFFECT: improved sanitary and hygienic bird keeping conditions, reduced consumption of power, increased efficiency in ventilation of space inside cage and disinfection of contaminated air at poultry house outlet opening.

1 dwg, 3 tbl

Up!