A modular transfer system with a primary flow system and a diverter system that is repositionable along a track system. The primary flow system includes a primary flow belt for conveying an article along a primary flow path from an infeed side of the modular transfer system to a pass-through side of the modular transfer system. The diverter system that is repositionable along the track system between the infeed side and the pass-through side by attachment within one or more channels.

A device and a method for the separation of elongated parts (long parts) from bulk materials. The device comprises a conveying device (1), a deflecting device (2) and a rake with webs (4) being oriented longitudinally to the conveying direction. According to the method, the bulk material is transported on the conveying device (1), and then long parts (10) are oriented by means of a deflecting device (2) transversely to the conveying direction. After passing through the deflecting device (2), the transversely oriented long parts are transferred to the rake (4) and discharged as coarse materials (7). Compact parts (11) fall through this rake and thus end up in the fine material (6).

A transfer apparatus contains a conveying unit, a sorting unit, which is configured for receiving and sorting articles from the conveying unit, and a transfer unit with a feeding unit. The transfer unit forms a transporting connection between the conveying unit and the sorting unit. A discharging unit is positioned on a portion of the conveying unit and is configured to discharge an article onto the transfer unit only when the article is at a predefined minimum distance from a previously discharged article.

A system for conveying products in succession along an industrial line, the system including at least one conveyor configured for conveying the products along at least one stretch of the line. Provided on the conveyor are codes to identify a series of distinct areas, for reception of the products. The system also includes one or more devices configured for detecting the codes of the areas of the conveyor when the areas are located in a position, along the line, where the products undergo a given operation; and a control unit configured for processing the codes so as to determine one or more data regarding the products.

A luggage conveyor device for efficiently supplying a plurality of inspection objects to be inspected or individual items in general to an inspection device (4) is provided. The conveyor device (1, 2, 3) is particularly efficiently designed such that an inspection object inspection is carried out quickly and smoothly. A correspondingly designed method for operating the conveyor device (1, 2, 3), and to a computer program product including control commands for implementing the method or operating the conveyor device (1, 2, 3) are also provided.

An apparatus that conveys pellet-shaped articles may include a hopper that receives a quantity of the pellet-shaped articles. The hopper may include one or more openings to direct a flow of air into the hopper to dislodge jamming or bridging of pellet-shaped articles within the hopper.

A method and system for an automatic parts conveying system includes a parts feeder configured to receive parts from a receiving bin, a linear conveyor for conveying parts away from the parts feeder to an installation robot. The installation robot includes a robot arm controlled by a controller and a parts handling device coupled to a distal end of the robot arm. The automatic parts conveying system also includes one or more vibrating elements positioned along at least one of the linear conveyor, the parts feeder, and the receiving bin to impart vibratory motions to the at least one of the linear conveyor, the parts feeder, and the receiving bin for stimulating the parts into motion. The automatic parts conveying system also includes an air assist portion configured to provide pressurized fluid to the parts to facilitate moving parts through the automatic parts conveying system.

A method for measuring dustiness of a product. The method can include providing the product onto a ramp. The method further can include allowing gravity to move the product down the ramp, toward a discharging end of the ramp, and to exit the ramp through a dam at the discharging end of the ramp. The dam can be configured to control a mass flow rate of the product exiting the ramp. The method additionally can include measuring, by a sensor, airborne particles to determine the dustiness of the product, wherein the airborne particles are generated by the product exiting the ramp and freely falling onto a support surface. Other embodiments are disclosed.

The present invention relates to the field of using different sensing and detection methods to determine parcel flow density 1D lineal, 2D area or 3D volumetrically on a selected section of a feed conveyor and receiving conveyor and adjusting conveyor speed ratios proportioned according to ratio of desired density to current density to increase the density or volume of parcels in a selected area of the receiving conveyor.

A sorting/handling system for sorting/handling parcels or packets comprises a primary conveyor for conveying the packets in series around a looped path, at least one platform secondary conveyor fed by the primary conveyor and having a throughput rate lower than that of the primary conveyor, and a transfer unit for transfer between the primary conveyor and the secondary conveyor, which transfer unit comprises n chutes into which the packets coming from the primary conveyor fall by gravity so as to be received at the outlets on n parallel channels of an accumulation zone having movable barriers. Downstream from the accumulation zone, the system further comprises mechanical members for putting the packets into series by spacing them apart at a constant pitch, and then for transferring them to free platforms of the secondary conveyor at a rate of one packet per platform.