Assembly for complex treatment of incubation eggs by radiant energy

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

 

The invention relates to installations for the processing of radiant energy and can be used for one-time delivery of biological exposure to radiant energy, ozone and ionized air.

Known installation for the integrated laser light treatment of hatching eggs, including gas discharge lamp DMESG-500, emitting monochromatic red light wavelength 630-650 them, the average dose on the surface of eggs 23.1 erg, helium-neon laser LGN-104, generating a monochromatic coherent polarized red light wavelength of 632.8 nm with a power density on the surface of eggs 50 mW/cm and a mercury-quartz lamp CES-400, emitting ultraviolet light of wavelength 185-400 nm average dose on the surface of eggs 20 mayor/h (Mamakaev mathematical SCIENCES. Auth. mon. The USSR №1748768 on March 22, 1992, prototype)

The main tasks of reconstruction of laser light for processing eggs were the introduction of structural changes that improve the viability and productivity of the birds by exposure to radiant energy, ozone, ionized air, and energy savings, for what to include in the design of the installation:

- bactericidal lamps PDR-30, allowing disinfect the processing object from all sides, to produce a negative air ions and ozone;

- infrared laser Pattern, whose rays etc which arise through the shell pores and transparent layers of protein, reach the surface of the yolk of eggs, absorbed them, and have a thermal effect on the fetus;

- a depressurization of the optical filter cartridge in the direction of the camera lights, and the sealing side (input and output trays with eggs from the installation), which provides accumulation in the cell illumination ozone, negative ions, generated by UV lamps, and increased heat discharge lamp DMESG-500 and infrared laser Pattern.

- reconstruction of remote control that allows you to turn on appliances and all sources of radiant energy, taking into account the incubation period to drive them to work.

Installation for processing of hatching eggs of radiant energy, ozone and ionized air (figure 1) is a metal frame (1), which strengthened helium-neon laser LGN-104 (2), the stabilizer laser LGN-104 (3), a discharge lamp DMESG-500 (8), infrared laser Pattern (4), the power supply of the laser Pattern (5), the scanning device (7), the motor scanning device (6), bactericidal lamps PDR-30 (9), throttle germicidal PDR-30 (10), mercury-quartz lamp CES-400 (S), power supply, lamp CES-400 (12), bactericidal lamps PDR-15 (13), remote control (15), switch KMZ-2 (16), high-voltage conveyor (17), the gearbox (20), e is tradigital gear (19), chain transformer (21), tapes, optical filters, light sources (14), the camera illumination (23), tapes, optical filters camera illumination (22), leaking the tape optical filter lamps DMESG-500 and PDR-30 (25), leaking the tape optical filter lamps CES-400 and PDR-15 (24), and the cartridge Assembly in the direction of the camera lights.

Scanning device (Fig) increased in diameter from 7 to 10 cm were 10 planes with 70° to 110°with a difference of 4°on which strengthened mirror (7), which can scan in the camera backlight (23) radiation 2-3 laser light sources (2, 4).

When the motor is started scanning device (6), scanning device rotates at a speed of 1400 rpm and refracts the laser light towards the camera backlight (23) and hatching the egg, laid in trays for incubation (26), is bombarded by hundreds of times.

Figure 5 shows a diagram of the irradiation hatching eggs three lamps PDR-30, two of which are mounted in the cassette optical filter discharge lamp DMESG-500, one under the transporting mechanism. The divergence angle of the lamps PDR - 30-120°that allows you to disinfect the object of influence from all sides.

Remote control (figure 2) allows you to enable "Network"helium-neon laser LGN-104 (toggle TV-1), infra is rainy laser "Pattern" (TV-2), germicidal lamps PDR-30 (TV-3), bactericidal lamps PDR-15 and mercury-quartz lamp CES-400 (TV-4), the motor scanning device (TV-5), a discharge lamp DMESG-500 (the "light"button) and transporting mechanism (button KN 3-2).

Offline inclusion of sources of radiant energy and the electric motor (6; 19) saves elektroenergii.

Job position: using the remote control (Fig. 2) is turned on and voltage in the electrical network installation. The toggle TV-1 is the voltage in the power supply laser LGN-104 (3), a toggle switch which turns the laser LGN-104 (2). TV-2 is energized in the power supply of the laser Pattern (5) and turns on the laser Pattern (4). The toggle TV-3 included lamp PDR-30 (9), TV-4-PDR-15 (13) and voltage in the power supply of the lamp CES-400 (12), the dials of which is in working condition lamp CES-400 (11). The "light" button provided in the operating condition of the lamp DMESG-500.

Upon completion of the training all sources of radiant energy to operate and create sufficient background ozone and ionized air in the chamber backlight (23). TV-5 activates the motor scanning device (6), trays with hatching eggs are put on pedestals (18) from the control unit (15), click the KMZ-2 (16) activates the motor transport chain is tera (19). Trays with egg served on a chain conveyor (21) and moving the camera illumination, consistently with smooth transition heated light discharge lamp DMESG-500 (8), are disinfected with germicidal radiation PDR-30 (9), located relatively hatching eggs angle 120° (figure 5), then heated by infrared rays laser Pattern (4), processed helium-neon laser LGN-104 (2). The laser beams are refracted scanning device (7) to ten planes (figure 4). After processing of hatching eggs rays lasers of LGN-104 and the Pattern irradiated with ultraviolet light of a mercury-quartz lamp CES-400 (11) and bactericidal lamps PDR-15 (13), then the trays with egg conveying mechanism (21) are given on the stand (18) on the opposite side from the control panel.

Cassettes optical filters camera illumination (22) made of flexible material and after the filing trays with egg on chain conveyor or the issuance of the transporting mechanism tightly seal the camera backlight (23), resulting in the hatching egg is exposed to ozone and ionized air produced by the ultraviolet lamp systems CES-400, PDR-30 and PDR-15.

Exposure processing is controlled by the enable and disable buttons KMZ-2 (16). When the automatic mode of operation exposure clicks the processing surface of the eggs is: lamp DMESG-500 wavelength 630-650 nm, the maximum absorption at 640 nm, the average dose 23.1 erg and lamps PDR-30 wavelength 254-400 nm, the maximum absorption at 254 nm average dose of 30 W - 17, the laser LGN - 104 a wavelength of 632.8 nm, power density of the optical flow of 50 mW cm2and the laser Pattern, the wavelength of 890 nm, a power of 50 W - 3, mercury-quartz lamp CES-400 wavelength 185-400 nm, the maximum absorption at 400 nm and lamps PDR-15 wavelength 254-400 nm, the maximum absorption at 254 nm, a power of 15 W - 5 C.

Application of the plant for complex processing of eggs radiant energy, ozone and ionized air with clean eggs on all sides, which increases embryonic and post-embryonic viability and productivity, contributes to the formation of physiological parameters birds in Natal and postnatal ontogenesis and saves energy.

Plant for complex processing of hatching eggs of radiant energy containing gas discharge lamp DMESG-500, helium-neon laser LGN-104, mercury-quartz lamp CES-400 and bactericidal lamps PDR-15, and tapes, optical filters, lamps DMESG-500, he-400, PDR-15, characterized in that additionally introduced three germicidal lamp PDR-30, located at an angle 120° hatching eggs, infrared laser Pattern, and the optical filter cartridge lamp PDR-30, and the Cam is Yety optical filters lamps DMESG-500, PDR-30, CES-400, PDR-15 depressurized in the direction of the camera lights with complex effects on egg hatching rays lasers, ozone and ionized air and disinfect eggs on all sides and save energy.



 

Same patents:

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: poultry science.

SUBSTANCE: one should irradiate eggs before incubation with the light of He-Ne laser LHN-104, wave length being 632.8 nm, power density at eggs surface being 50 mW/sq.cm/sec, with red light of fluorescent lamp DNESG-500, wave length being 630-650 nm, power at eggs surface being 23.1 erg and with ultraviolet from DRT-400 lamp at wave length being 185-400 nm, average dosage at eggs surface being 20 merg in 3-min-long exposures.

EFFECT: higher resistance to pullorosis in poultry.

4 dwg, 4 tbl

The invention relates to agriculture, in particular to poultry

The invention relates to poultry

The invention relates to poultry, namely the cultivation of replacements and maintenance of adult chickens

FIELD: poultry science.

SUBSTANCE: one should irradiate eggs before incubation with the light of He-Ne laser LHN-104, wave length being 632.8 nm, power density at eggs surface being 50 mW/sq.cm/sec, with red light of fluorescent lamp DNESG-500, wave length being 630-650 nm, power at eggs surface being 23.1 erg and with ultraviolet from DRT-400 lamp at wave length being 185-400 nm, average dosage at eggs surface being 20 merg in 3-min-long exposures.

EFFECT: higher resistance to pullorosis in poultry.

4 dwg, 4 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: 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 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 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

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: 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

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: 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: 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

Up!