KR100330080B1 - Manufacturing process of increasing egg of poultry supplied calcium-silicate systems mixing sericile with infrared ray - Google Patents

Abstract

The present invention relates to a method for producing a spawning stone that produces a sapphire as a method for the production of hens laying hens, which results in a spawning effect. The present invention relates to a calcined mica that emits far-infrared light. It is a method for producing a laying hen sapphiresite which is prepared by using the egg shell reinforcing agent for poultry farming, in which the silica sand powder is used as a binder and the aluminum powder is foamed in combination with the foaming agent, followed by foaming.

Description

Manufacturing process of increasing egg of poultry supplied calcium-silicate systems mixing sericile with infrared ray}

The present invention is a method for producing laying hen laying stones to increase the number of eggs laid in poultry.

Chickens radiating from open fields at poultry farms sometimes lived by feeding on calcined sand in the soil as a digestive aid and digesting and absorbing feed. In modern times, however, chickens spawned in poultry houses have to be added artificial calculus. In this way, pulverized calcite or shells are pulverized. Breeding.

However, in the case of laying hens, the spinning egg meal contains a large amount of micronized protein, and measures for complete digestion are required. In spawning, the blue rate reaches an average of 10%, and until the distribution stage, up to an extreme 15% due to egg and blue, bringing the national economic loss caused by the loss of the blue rate.

The reality of importing more than 90% of domestic feed is a matter of serious concern, and is an important task that needs to be addressed urgently for the purpose of saving waste resources and foreign currency.

The supply of hydrated stone at poultry farming is essential as an effective grinding aid for feed, and it is believed that the calcite has been neglected, but the importance of hydrated stone is being neglected. The method of adding to the mineral feed requires a more scientific and rational method.

In view of the above situation, calcite is added to the feed of laying hens, so it is necessary to find a ground-breaking way to establish the function to strengthen the function of the calcination and the strength of the egg shell and establish the countermeasure.

The present invention has been made in view of the general conditions appearing in breeding and laying hens, calcite added to laying hens feed does not only serve as grinding aid, but as a function of calcining, the laying hens maximize the absorption of lime and various microorganisms are digested in the digestion process. Porous calcined hardened body through the trachea to help digestion of nutrients absorbed by porous calciner more efficiently, and to help complete digestion of undigested protein during digestion process and to effectively prevent diseases caused by various microorganisms in poultry farming. It is to supply calcite that plays a role as a blue reducing agent without disease and to increase its digestive absorption function by adding a small amount of this dilute calcite while maintaining the function of calcite or shell added to the current poultry feed. It was invented for the purpose.

The present invention as a means for pursuing the above object

Synthetic carbonic acid with silica sand powder, slaked lime or shell or oyster shell as lime material, and cement powder (hereinafter referred to as whey composite material) as foaming and strength reinforcing material. Calcium was added to the eggs to improve the freshness of the eggs by using the villus that emits far infrared light with high efficiency, and was effective for long-term storage. The added calcium carbonate was easy to absorb in the chicken body, and contributed greatly to the formation of a thick egg shell, and the chemical components of the silica sand, biotite, and whey composite material used in the present invention are as follows.

(Wt.%)

SiO₂ Al ₂ O ₃ Fe ₂ O ₃ CaO MgO TiO₂ K ₂ O Na ₂ O SO ₃ Ig.loss Other

Silica 94.42 5.01 0.53 0.04

Cicada 68.10 17.87 1.05 0.87 2.00 0.21 5.90 0.13 3.57

Weighing Composite 21.58 5.21 3.20 64.16 1.74 1.02 1.90 0.60 0.59

The content of calcium oxide in hydrated lime, calcium carbonate, shells and oyster shells is more than 90% pure. The far infrared ray measurement (radiation wavelength 5-20㎛) of Cicada was 93% (measured by Black body using FT-IR Spetrometer).

The ratio of lime to silica sand is preferably higher than the SiO2 content if the hardenable CaO is possible, and it is most preferable to make the molar ratio of CaO / SiO ₂ = 2.0 to 3.0, which is the highest CaO, and the mixing ratio with the amount of mica. May be appropriately adjusted, but about 70% of chorionic hair was preferred. Alternatively, the synthetic calcium carbonate may be prepared by mixing about 30%. By mixing synthetic calcium carbonate, it is effectively absorbed at the time of eggshell formation, thereby improving the thickness and strength of the eggshell.

50% of the weight of the raw material combination is added to hot water (60 ° C), and an appropriate amount of aluminum metal powder is added to the slurry while stirring for 3 minutes in a mixer to form a slurry, followed by foaming. After condensation, atmospheric curing (90 ° C.-6 hours) to obtain a curing agent, and when the cured product is pulverized to a particle size of 10mm or less to prepare a lightweight aggregate with a lot of capillary pores to produce a sintering stone.

In order to prepare the dilute calcite of the present invention, the fine mica, lime powder and silica sand are finely divided to a predetermined particle size, and aluminum metal powder is added to foam in a slurry state, and then, the synthetic water system is synthesized in a room temperature or high temperature hydrothermal atmosphere to make a hardened body and a suitable size. The fine powder is prepared by pulverizing to a particle size of. About 30% of calcium carbonate (powder) may be mixed with the calcined mixture, and then mixed with an existing poultry feed, and may be used in a poultry feed.

Referring to the present invention in detail the production method of evaporated calcined as follows.

<Example 1>

500 g of mica that emits far-infrared light and 190 g of whey composite material together with 10 g of silica powder were added to a mixer, and 350 ml of hot water at 60 ° C. was added and stirred with 0.1% aluminum powder of the raw material, followed by mixing. 60 minutes). After curing, the mixture was cured at 90 ° C. for 6 hours at atmospheric pressure to obtain 770 g of a fine porous dry cured product, which was ground to a particle size of 10 mm or less, and 230 g of synthetic calcium carbonate was mixed to prepare 1000 g of distilled stone. The volume specific weight of the cured product was 0.5 and the compressive strength was 10 Kg / cm 2.

<Example 2>

To 600 g of farther-ray mica, 140 g of hydrated lime and 60 g of silica powder are put into a mixer and mixed. 50% of the weight of the raw material is added thereto and stirred while adding 0.1% by weight of aluminum powder to the mixture while stirring and foaming for 30 minutes in a thermo-hygrostat at 60 ° C. After condensation, the mixture was cured at 90 ° C. for 6 hours at atmospheric pressure to make 840 g of porous dry cured product, which was ground to a particle size of 10 mm or less, and 250 g of synthetic calcium carbonate was mixed to prepare 1090 g of dilute calcite.

<Use Experiment>

The results of the experiment of the administration of the elutriation of the present invention prepared in Example 1 with the addition of 3% in the commercial feed of 40-week-old laying hens are shown in Table 1.

Comparative test table (40 weeks old laying hens) of egg Before use after use Remarks Spawn rate 70% 90% 620 count Blue factor (%) 6% 2% 200 number a week average Eggshell thickness 0.34mm 0.40mm 30 averages Eggshell strength 4250gr 5300gr 30 averages Far Infrared Measurement 88% 92% 30 averages Freshness usually Great 10 ℃, humidity 80%, after 30 days storage Fishy has exist none

The spawned feed produced as described above is finely pulverized to 10mm or less and then mixed with the poultry feed to breed as a laying feed. The spawning rate starts to increase from one week later to 30% more than the original feed. The eggshell defect rate is known to be 7% on average, but the productivity is less than 1%. The eggshell thickness is 0.34mm to 0.40mm and 11% thick. Showed an increase. In addition, the egg yolk of the present invention is added to the egg yolk can be picked up with chopsticks, the egg white can be lifted by the thumb and the second finger, and after boiling boiled fishy yellow egg produced a dark egg.

Compared to the existing laying hens, the egg quality and egg color are less fishy, and the excellent quality and the rate of egg breeding show an average of 30% increase per month than the addition of egg feed.

As a method for the spawning of laying hens in poultry farming, it is synthesized by the formation of steamed calcined limestone and silica sand which emit far infrared rays in water vapor. The effect was remarkable as a result of production, contribution to foreign currency reduction and contribution to national health.

Claims (1)

70-75% of the hard mica that emits far infrared rays and either slaked lime or whey-based material are selected to have a molar ratio of 10-28% and silica powder 1-10%, with a molar ratio of CaO / SiO ₂ = 2.0-3.0. After mixing and mixing 50% hot water of raw material weight and adding 0.1% weight of aluminum powder of raw material weight to the mixer, mixing it, foaming by condensation at 60 ℃ constant temperature and humidity room for 30 minutes, and condensing at 90 ℃ 6 hours of atmospheric curing to make a porous cured product, which is prepared by pulverizing it to a particle size of 10 mm or less and mixing 20 to 35% by weight of calcium carbonate. Manufacturing method.