The present invention relates to an egg carrier for holding an egg in an egg handling system, wherein the egg carrier comprises; an egg accommodation, an egg clamping system to secure an egg in the egg accommodation space, wherein the egg clamping system is moveable between an egg securing position and an egg release position, an operating system coupled with the egg clamping system to move the clamping system between the egg securing position and the egg release position, wherein the operating system comprises an operating member that is operable externally from the egg carrier.

The present invention relates to an egg carrier for holding an egg in an egg handling system, wherein the egg carrier comprises; an egg accommodation, an egg clamping system to secure an egg in the egg accommodation space, wherein the egg clamping system is moveable between an egg securing position and an egg release position, an operating system coupled with the egg clamping system to move the clamping system between the egg securing position and the egg release position, wherein the operating system comprises an operating member that is operable externally from the egg carrier.

Volatile organic chemicals emitted by a shell egg embryo are used to identify the fertility, viability, and sex of the shell egg embryo. Shortly after the egg is laid, the egg is isolated in a vapor-tight compartment so that a vapor containing volatile organic chemicals emitted by the shell egg embryo collect in the headspace of the compartment. The chemicals in the vapor are analyzed to construct a chemical profile of the shell egg embryo, and then the chemical profile of the shell egg embryo vapor is loaded into a previously developed model. Based on the data generated by the model, the shell egg is embryo is predicted to be an alive male, an alive female, an infertile egg, or an egg containing a dead embryo.

Volatile organic chemicals emitted by a shell egg embryo are used to identify the fertility, viability, and sex of the shell egg embryo. Shortly after the egg is laid, the egg is isolated in a vapor-tight compartment so that a vapor containing volatile organic chemicals emitted by the shell egg embryo collect in the headspace of the compartment. The chemicals in the vapor are analyzed to construct a chemical profile of the shell egg embryo, and then the chemical profile of the shell egg embryo vapor is loaded into a previously developed model. Based on the data generated by the model, the shell egg is embryo is predicted to be an alive male, an alive female, an infertile egg, or an egg containing a dead embryo.

A transfer machine, the setter trays being placed with set eggs on a carrying mechanism. The carrying mechanism positions the setter trays under a transfer mechanism that includes a series of egg pick-ups. By moving the transfer mechanism down towards the eggs, the egg pick-ups can pick up the eggs and lift them out of the setter trays.

A transfer machine, the setter trays being placed with set eggs on a carrying mechanism. The carrying mechanism positions the setter trays under a transfer mechanism that includes a series of egg pick-ups. By moving the transfer mechanism down towards the eggs, the egg pick-ups can pick up the eggs and lift them out of the setter trays.

A method is provided, wherein the eggs which are pre-incubated in setter trays are transferred to the poultry house in these setter trays. In the poultry house, a layer of insulating covering material is provided on the floor of the poultry house, in one or more strips. The covering material comprises, in particular, litter which is applied in a layer thickness of at least 2 cm. By a set of egg pickup members of a transfer machine, the pre-incubated eggs are removed in the poultry house from the setter trays, after which they are positioned on the covering material by the transfer machine. In this way, the eggs can be placed in the poultry house efficiently, with a minimal risk of damage to the eggs a high hatching rate being ensured.

A method is provided, wherein the eggs which are pre-incubated in setter trays are transferred to the poultry house in these setter trays. In the poultry house, a layer of insulating covering material is provided on the floor of the poultry house, in one or more strips. The covering material comprises, in particular, litter which is applied in a layer thickness of at least 2 cm. By a set of egg pickup members of a transfer machine, the pre-incubated eggs are removed in the poultry house from the setter trays, after which they are positioned on the covering material by the transfer machine. In this way, the eggs can be placed in the poultry house efficiently, with a minimal risk of damage to the eggs a high hatching rate being ensured.

A system for determining the gender and/or fertility status of avian eggs including a sampling apparatus and an electromagnetic radiation transmitter and detector. In certain embodiments, the transmitter operates in the terahertz range. The sampling apparatus can be coupled to an avian egg. The sampling apparatus includes a vacuum source, a gas collection device, and a membrane that can be positioned in the passageway coupling the vacuum source to the gas collection device. The membrane is capable of capturing volatile organic compounds. The sampling apparatus applies a vacuum from the vacuum source to the gas proximate to the avian egg and directs the gas captured from the vicinity of the egg toward the membrane. Subsequently, the membrane is positioned within the electromagnetic radiation emitted by the transmitter, generating a spectrum which can be analyzed to determine whether the egg is fertile or infertile, and if fertile, whether the egg is male or female. In an embodiment, the captured volatile organic compounds are transferred to a sample chamber where the captured gas is analyzed.

A system for determining the gender and/or fertility status of avian eggs including a sampling apparatus and an electromagnetic radiation transmitter and detector. In certain embodiments, the transmitter operates in the terahertz range. The sampling apparatus can be coupled to an avian egg. The sampling apparatus includes a vacuum source, a gas collection device, and a membrane that can be positioned in the passageway coupling the vacuum source to the gas collection device. The membrane is capable of capturing volatile organic compounds. The sampling apparatus applies a vacuum from the vacuum source to the gas proximate to the avian egg and directs the gas captured from the vicinity of the egg toward the membrane. Subsequently, the membrane is positioned within the electromagnetic radiation emitted by the transmitter, generating a spectrum which can be analyzed to determine whether the egg is fertile or infertile, and if fertile, whether the egg is male or female. In an embodiment, the captured volatile organic compounds are transferred to a sample chamber where the captured gas is analyzed.