A vibratory apparatus includes a deck and an exciter assembly coupled to the deck. The apparatus also includes a motion sensor, a weight sensor, and a control system coupled to the exciter assembly, the motion sensor, and the weight sensor. The control system is configured to pause the rate of travel of the material across the deck for a weighing interval, to receive the signal from the weight sensor representative of a material weight on the deck during the weighing interval, to resume the rate of travel for a transporting interval, to receive a signal from the motion sensor representative of a material flow rate during the transporting interval, to determine a material mass flow rate based on the signals from the weight sensor and the motion sensor and the weighing and transporting intervals, and to vary the operation of the exciter assembly according to the material mass flow rate.

A vibratory apparatus includes a deck and an exciter assembly coupled to the deck. The apparatus also includes a motion sensor, a weight sensor, and a control system coupled to the exciter assembly, the motion sensor, and the weight sensor. The control system is configured to pause the rate of travel of the material across the deck for a weighing interval, to receive the signal from the weight sensor representative of a material weight on the deck during the weighing interval, to resume the rate of travel for a transporting interval, to receive a signal from the motion sensor representative of a material flow rate during the transporting interval, to determine a material mass flow rate based on the signals from the weight sensor and the motion sensor and the weighing and transporting intervals, and to vary the operation of the exciter assembly according to the material mass flow rate.

Portable flow aid devices, systems, and methods for promoting bulk powder flow in containers. The portable flow aid devices include a housing having an enclosed internal cavity therein, and at least two vibration motors each adapted to generate vibration and each separately fixedly attached to an interior surface of the housing within the internal cavity to transmit the vibration generated thereby to the housing. Wireless communication with the portable flow aid devices causes the vibration motors to generate the vibrations and thereby apply a localized vibration to portions of a bulk powder within a container and in contact with the housing of the portable flow aid device to promote flow of the bulk powder within the container.

Portable flow aid devices, systems, and methods for promoting bulk powder flow in containers. The portable flow aid devices include a housing having an enclosed internal cavity therein, and at least two vibration motors each adapted to generate vibration and each separately fixedly attached to an interior surface of the housing within the internal cavity to transmit the vibration generated thereby to the housing. Wireless communication with the portable flow aid devices causes the vibration motors to generate the vibrations and thereby apply a localized vibration to portions of a bulk powder within a container and in contact with the housing of the portable flow aid device to promote flow of the bulk powder within the container.

The invention relates to a method for the breeding and collection of neonate larvae, in particular of the black soldier fly, containing the placing of insects in a cage, provided with means for depositing eggs, guiding larvae, hatched from the deposited eggs, by means of a guiding device, placed under the cage, under the influence of gravity to a conveyor belt placed under the guiding means, moving the larvae by means of the conveyor belt to a recipient placed at the end of the conveyor belt, counting the number of larvae on the conveyor belt before collection in the recipient, and collecting the larvae of the conveyor belt in the recipient until a predetermined number of larvae has been reached.

The invention relates to a method for the breeding and collection of neonate larvae, in particular of the black soldier fly, containing the placing of insects in a cage, provided with means for depositing eggs, guiding larvae, hatched from the deposited eggs, by means of a guiding device, placed under the cage, under the influence of gravity to a conveyor belt placed under the guiding means, moving the larvae by means of the conveyor belt to a recipient placed at the end of the conveyor belt, counting the number of larvae on the conveyor belt before collection in the recipient, and collecting the larvae of the conveyor belt in the recipient until a predetermined number of larvae has been reached.

A vibrating screen feed conveying apparatus for conveying and separating sticky “moisture laden bulk solids” which are sticky and wet flowing onto a vibrating screening feeder and into a hopper. The apparatus includes a bed on which material is conveyed, a longitudinal counterbalance supported on a plurality of isolation springs, a plurality of inclined drive springs extending between the bed and the longitudinal counterbalance, and a plurality of stabilizers for controlling movement of the drive springs along their central axes. A plurality of vibratory motors, each having rotatable eccentric weights are attached to the rear end of the longitudinal counterbalance. The eccentric weights rotate in phase with one another to vibrate the bed at a vibration frequency.

A vibrating screen feed conveying apparatus for conveying and separating sticky “moisture laden bulk solids” which are sticky and wet flowing onto a vibrating screening feeder and into a hopper. The apparatus includes a bed on which material is conveyed, a longitudinal counterbalance supported on a plurality of isolation springs, a plurality of inclined drive springs extending between the bed and the longitudinal counterbalance, and a plurality of stabilizers for controlling movement of the drive springs along their central axes. A plurality of vibratory motors, each having rotatable eccentric weights are attached to the rear end of the longitudinal counterbalance. The eccentric weights rotate in phase with one another to vibrate the bed at a vibration frequency.

A vibrating machine including a first machine part that vibrates in operation, a second machine part connected to an installation area of the vibrating machine, and a vibratory drive. A resilient bearing is arranged between the machine parts and has at least one air spring per support point and at least one compressed air reservoir fluidically connected to the air spring. A throttle is switched intermediate the air spring and the compressed air reservoir. The first machine part bearing has a resonant or natural frequency lower than an operating frequency of the vibrating machine. The bearing system has a frequency-dependent lower stiffness level with high damping at low frequencies, an upper stiffness level with low damping at higher frequencies, and a transition zone at an intermediate transitional frequency. The throttle is dimensioned such that the transitional frequency is close to, preferably slightly above, the resonant or natural frequency.

A vibrating screen feed conveying apparatus for conveying and separating sticky “moisture laden bulk solids” which are sticky and wet flowing onto a vibrating screening feeder and into a hopper. The apparatus includes a bed on which material is conveyed, a longitudinal counterbalance supported on a plurality of isolation springs, a plurality of inclined drive springs extending between the bed and the longitudinal counterbalance, and a plurality of stabilizers for controlling movement of the drive springs along their central axes. A plurality of vibratory motors, each having rotatable eccentric weights are attached to the rear end of the longitudinal counterbalance. The eccentric weights rotate in phase with one another to vibrate the bed at a vibration frequency.