The invention relates to a method for producing chicken at a hatchery, the method comprising; incubating a batch of eggs in an incubating device during an incubating period of between about 7 to about 20 days, and then, for each egg of the batch, detecting the presence of a hatchable chicken embryo, based on the presence of a hatchable chicken embryo, dividing the batch of eggs into at least a hatchable batch portions and a not-hatchable batch portion, hatching the hatchable batch portion until hatching occurs, rearing of chicken hatched from said hatchable batch portion,
wherein the method comprises at the hatchery processing the not-hatchable batch portion into feed and administering said feed at the hatchery to hatched chickens during rearing.

The invention relates to a method for producing chicken at a hatchery, the method comprising; incubating a batch of eggs in an incubating device during an incubating period of between about 7 to about 20 days, and then, for each egg of the batch, detecting the presence of a hatchable chicken embryo, based on the presence of a hatchable chicken embryo, dividing the batch of eggs into at least a hatchable batch portions and a not-hatchable batch portion, hatching the hatchable batch portion until hatching occurs, rearing of chicken hatched from said hatchable batch portion,
wherein the method comprises at the hatchery processing the not-hatchable batch portion into feed and administering said feed at the hatchery to hatched chickens during rearing.

An improved poultry production method comprising providing dry hydrogen peroxide (DHP) to poultry eggs, chicks and birds, and devices for providing DHP to poultry production during laying, incubating, hatching, and growing.

An improved poultry production method comprising providing dry hydrogen peroxide (DHP) to poultry eggs, chicks and birds, and devices for providing DHP to poultry production during laying, incubating, hatching, and growing.

An improved poultry production method comprising providing dry hydrogen peroxide (DHP) to poultry eggs, chicks and birds, and devices for providing DHP to poultry production during laying, incubating, hatching, and growing.

The present application relates to the technical field of incubators, and discloses an egg incubator base including: a driving mechanism, a water supply device, a base for holding eggs, and a rotary seat for driving the eggs to rotate. Cooperation between a first sub-cavity, a second cavity and the water supply device in an embodiment of the present application can provide the egg incubator with two different humidity environments to operate without opening the egg incubator, to achieve the requirements of different environmental humidity for different time periods of the egg incubator. Secondly, the present application also provides a driving mechanism in the second sub-cavity, so that the installation space in an accommodating cavity can be further optimized.

An integrated incubator with automatic water filling and humidifying device, comprising a bottom case, a cover and a top cover, with a controller, detector, humidifier and water-filling unit; the water-filling unit comprises a bottom case cover, a casing, a plug and a limiting post; the plug is provided with a sealing ring at the top and springs in the middle; the upper part of the casing and the sealing ring forms a sealing structure, and the bottom of the casing is provided with a water level opening for water discharge. The casing, the plug, the limiting post and the sealing ring form the water-filling unit, realizing the automatic water operation.

An integrated incubator with automatic water filling and humidifying device, comprising a bottom case, a cover and a top cover, with a controller, detector, humidifier and water-filling unit; the water-filling unit comprises a bottom case cover, a casing, a plug and a limiting post; the plug is provided with a sealing ring at the top and springs in the middle; the upper part of the casing and the sealing ring forms a sealing structure, and the bottom of the casing is provided with a water level opening for water discharge. The casing, the plug, the limiting post and the sealing ring form the water-filling unit, realizing the automatic water operation.

An insulated egg incubator having a base pan with a bottom into which eggs are placed for incubation until hatching. Water channels are evenly disbursed in the bottom of the base pan for adding water and humidity to the incubator. A plastic molded screen is located in the base pan above the water channels to support the eggs. A top lid of a smaller dimension than the base pan is provided for completely nesting upside down into the base pan for shipping of the incubator. A window is in the top lid for viewing within the incubator. An insulated heater with a plastic fan assembly is mounted to the inside of the top lid. A digital control unit is mounted in the top lid with a rectifier connected to and controlling the on-off modes of the heater and the fan. A thermistor is provided inside the top lid and connected to the control unit placeable on the eggs for displaying the temperature within the incubator at the top of the eggs and inputting temperature readings to the control unit for operation of the heater. A humidity sensor is located inside the top lid and connected to the control unit for displaying the humidity within the incubator. A power cord with a plug is provided for connection and supply of electrical power to the control unit.

An insulated egg incubator having a base pan with a bottom into which eggs are placed for incubation until hatching. Water channels are evenly disbursed in the bottom of the base pan for adding water and humidity to the incubator. A plastic molded screen is located in the base pan above the water channels to support the eggs. A top lid of a smaller dimension than the base pan is provided for completely nesting upside down into the base pan for shipping of the incubator. A window is in the top lid for viewing within the incubator. An insulated heater with a plastic fan assembly is mounted to the inside of the top lid. A digital control unit is mounted in the top lid with a rectifier connected to and controlling the on-off modes of the heater and the fan. A thermistor is provided inside the top lid and connected to the control unit placeable on the eggs for displaying the temperature within the incubator at the top of the eggs and inputting temperature readings to the control unit for operation of the heater. A humidity sensor is located inside the top lid and connected to the control unit for displaying the humidity within the incubator. A power cord with a plug is provided for connection and supply of electrical power to the control unit.