The present invention concerns a sprayable aqueous composition intended for feeding biological control agents comprising eggs from at least one arthropod species and one or more thickeners and/or gelling agents, and a method for preparing such a composition, the use of same as a nutrient source for biological control agents and for improving the effectiveness of biological control methods, and biological control methods.

The present invention concerns a sprayable aqueous composition intended for feeding biological control agents comprising eggs from at least one arthropod species and one or more thickeners and/or gelling agents, and a method for preparing such a composition, the use of same as a nutrient source for biological control agents and for improving the effectiveness of biological control methods, and biological control methods.

The invention relates to an insect breeding device. The insect breeding device comprising at least one insect cage; a bin for holding drinking water or a tap for providing drinking water; a first pipe connected to the tap for receiving the drinking water, wherein the pipe is entering the at least one insect cage through a first opening; a nozzle, coupled to the first pipe, positioned inside the at least one insect cage configured to deliver the drinking water to the interior of the at least one insect cage; and a second pipe, coupled to a second opening, different from the first opening and located in the top wall of the cage or in a side wall of the cage, in the at least one insect cage, configured to deliver conditioned air into the at least one insect cage; and a third pipe, coupled to a third opening, different from the first and second opening and located in the top wall of the cage or in a side wall of the cage opposite to the second opening, in the at least one insect cage, configured to receive the conditioned air from the at least one insect cage.

The invention relates to an insect breeding device. The insect breeding device comprising at least one insect cage; a bin for holding drinking water or a tap for providing drinking water; a first pipe connected to the tap for receiving the drinking water, wherein the pipe is entering the at least one insect cage through a first opening; a nozzle, coupled to the first pipe, positioned inside the at least one insect cage configured to deliver the drinking water to the interior of the at least one insect cage; and a second pipe, coupled to a second opening, different from the first opening and located in the top wall of the cage or in a side wall of the cage, in the at least one insect cage, configured to deliver conditioned air into the at least one insect cage; and a third pipe, coupled to a third opening, different from the first and second opening and located in the top wall of the cage or in a side wall of the cage opposite to the second opening, in the at least one insect cage, configured to receive the conditioned air from the at least one insect cage.

Connector assembly (100), system and method for converting a batch wise supply of insects (102) to a continuous supply of insects (102). A container unit is present (105) having an internal volume, a water inlet unit (106-109, 117), and a suspension outlet unit (110-113). A receiving unit (101) has a top opening (101a) arranged for receiving batch wise quantities of insects (102) and a bottom opening (114). A conveyor unit (104) has a receiving part (104b) arranged near the bottom opening (114) of the receiving unit (101), and an outlet end (119) extending into the container unit (105). By suspending the insects (102) in water it is possible to transport the suspension of insects (102) in water, e.g. to a buffer container (300).

Systems and methods are provided for rearing invertebrates by utilizing a plurality of crates (4) arranged into a plurality of stacks (6), each crate (4) in each stack (6) defining an airflow path (80) there through from an inlet opening (48) in a first wall (46) to an outlet opening (48) in a second wall (46) opposite the first wall (46) of each crate (4). The plurality of crates (4) are arranged in a climate controlled chamber (2).

Systems and methods are provided for rearing invertebrates by utilizing a plurality of crates (4) arranged into a plurality of stacks (6), each crate (4) in each stack (6) defining an airflow path (80) there through from an inlet opening (48) in a first wall (46) to an outlet opening (48) in a second wall (46) opposite the first wall (46) of each crate (4). The plurality of crates (4) are arranged in a climate controlled chamber (2).

The invention relates to an insect breeding device. The insect breeding device comprising at least one insect cage (101) having a top wall (16A) with a non-curved and flat surface or having a top wall with a concave inner surface (seen from the interior of the insect cage); a bin (120) for holding a cleaning liquid; a first pipe (3) connected to the bin for receiving the cleaning liquid, wherein the pipe is entering the at least one insect cage through a first opening (11); a nozzle (14), coupled to the first pipe, positioned inside the at least one insect cage configured to deliver the cleaning liquid to the interior of the at least one insect cage; and a second pipe (4), coupled to a second opening (12), different from the first opening and located in the bottom wall of the cage and/or located in a side wall of the cage, in the side wall portion where the bottom wall and said side wall intersect, in the at least one insect cage, configured to drain the cleaning liquid and the debris remaining from farming insects in the cage, from the at least one insect cage.

The invention relates to an insect breeding device. The insect breeding device comprising at least one insect cage (101) having a top wall (16A) with a non-curved and flat surface or having a top wall with a concave inner surface (seen from the interior of the insect cage); a bin (120) for holding a cleaning liquid; a first pipe (3) connected to the bin for receiving the cleaning liquid, wherein the pipe is entering the at least one insect cage through a first opening (11); a nozzle (14), coupled to the first pipe, positioned inside the at least one insect cage configured to deliver the cleaning liquid to the interior of the at least one insect cage; and a second pipe (4), coupled to a second opening (12), different from the first opening and located in the bottom wall of the cage and/or located in a side wall of the cage, in the side wall portion where the bottom wall and said side wall intersect, in the at least one insect cage, configured to drain the cleaning liquid and the debris remaining from farming insects in the cage, from the at least one insect cage.

The invention relates to a device for use in large-scale industrial insect farming. More in particular, the invention relates to an insects transport device for transporting live insects from a first location to a predetermined second location, the insects transport device comprising a gas guiding unit, a gas discharge member and a feeder arrangement, wherein the insects transport device is configured to receive live insects such as freshly hatched neonate larvae, for example of black soldier fly, or mites, wherein the live insects are directly taken up in a laminar flow of gas after exiting the feeder arrangement in a free fall under influence of gravitation such that the live insects do not contact any surface of the insects transport device, and while in said gas are transported to a predetermined location in the insects transport device. Furthermore, the invention relates to the use of the device in industrial insect farming, such as large-scale farming of black soldier flies or mites. The invention also relates to a method of dosing live insects, wherein for example live insects are dosed which are essentially of the same age (e.g. within an age difference of 1 second-5 minutes), such as freshly hatched neonate larvae. In addition, the invention relates to a single dose of neonate larvae obtained with the method, wherein larvae have a small larvae-to-larvae age difference within the single dose.