A typing off-loading and item separation system to automatically separate different parcel types includes an feed conveyor, receiving conveyor, sorting conveyor, cameras and photoelectric eye. Overhead cameras and/or photoelectric sensors detect the item size and whether it is cubic in nature and type and size of its footprint. An in-line slide sorter having alternating conveyor rollers and pop-up belts pass through to, or divert items from a downstream conveyor. A vison based system may also be used to detect space between articles and insert articles in the unoccupied space to maximize conveyor area, volume, or density by controlling conveyor speed.

A vacuum system (10) and method (100) used for creating a dynamically controlled vacuum system (10) for lifting processes (Wc) are disclosed. The compressed air used for an ejector (3) is varied by calculating the required vacuum levels (V.sup. ) during the lifting process (Wc). This reduces the air consumption.

A method is disclosed for sorting a plurality of objects including an object that is one of a grain, a nut, a tree nut, or a bean. The plurality objects are conveyed along a guide plate having at least two channels between a first end and a second end of the corresponding channel. The channels have a first aperture provided at a first longitudinal position thereof and an additional aperture provided at a second longitudinal position on the guide plate located downstream of the first aperture. An optical measurement associated with a property of the object of the plurality of objects is conducted when the object passes the first aperture towards the second end with an object measurement unit. The object conveyed on the corresponding channel is ejected with an ejector unit when reaching the second longitudinal position based on the measured property of the object and a timing signal.

The invention includes a method (100) and an apparatus to handle irregularly conveyed and/or irregularly aligned and/or non-upright articles of an article stream under prevention of disturbances. The method (100) comprises the following steps: identifying at least one non-upright article in an article stream as an error; performing a correction step to resolve the error, the correction step comprising removal from the article stream of the at least one irregularly aligned article, or transfer to an upright orientation of the at least one irregularly aligned article, with a defined action being exerted temporally before and/or in temporal overlap with the correction step upon the at least one irregularly aligned article or upon regularly conveyed articles of the article stream.

An adaptive roller conveyor for conveying objects, comprises a plurality of rollers and a control device, wherein the control device is connected with a sensor for detecting at least one parameter of an object, wherein at least one roller is connected with an adjustable brake device, wherein the brake device is connected with the control device, and wherein the control device is configured to control the brake device in dependence on the detected parameter to change the braking effect of the roller.

This invention relates to improvements to a weighbridge belt scale, used in combination with a conveyor system, that incorporates a pair of base plates, attached to an existing conveyor structure, each base plate contains two weight sensors, which connect upon riser blocks, to provide for uniform clearance between the mount base plates, and the idler mount plates, of the conveyor system. Various rod end bearings allow for minor corrections to the assembly imperfection, and various shims can be used to make sure that the overall height of the standard idler and the scale weighbridge are adjusted to a height that matches with the other idler rollers of the conveyor belt system. This provides for more precise calculation of the parameters being detected by the weight sensors, so that more accurate determination of the weight, speed, and volume of the materials being conveyed, are attained.

A vibratory apparatus includes a deck, an electro-mechanical sensor and at least one vibratory exciter. The deck has an upper surface configured to receive items to be conveyed in at least a first direction along a longitudinal axis from a first deck end to a second deck end. The electro-mechanical sensor includes a wheel disposed above the upper surface of the deck, the wheel being rotatable about a wheel axis disposed transverse to the longitudinal axis, and an electronic sensor associated with the wheel, the electronic sensor configured to generate a signal representative of the revolutions per unit time of the wheel. The at least one vibratory exciter is attached to the deck and is configured to move the material along the deck.

Computer-implemented methods and systems for feeding workpieces to a manufacturing line are provided. An example method involves operating at least one processor to: receive, from at least one image device proximal to a bowl feeder, a sequence of images of workpieces within the bowl feeder; determine a flow velocity of the workpieces within the bowl feeder; generate bowl feeder control settings by applying the flow velocity to a predictive model; and automatically apply the bowl feeder control settings to the bowl feeder. Computer-implemented methods and systems for predicting anomalies in a manufacturing line are also provided. An example method involves operating at least one processor to: receive a sequence of images of workpieces in the manufacturing line; extract feature data from the sequence of images; apply the feature data to a predictive model to detect anomalies in the manufacturing line; and generate annotations to locate the anomalies within the images.

Computer-implemented methods and systems for feeding workpieces to a manufacturing line are provided. An example method involves operating at least one processor to: receive, from at least one image device proximal to a bowl feeder, a sequence of images of workpieces within the bowl feeder; determine a flow velocity of the workpieces within the bowl feeder; generate bowl feeder control settings by applying the flow velocity to a predictive model; and automatically apply the bowl feeder control settings to the bowl feeder. Computer-implemented methods and systems for predicting anomalies in a manufacturing line are also provided. An example method involves operating at least one processor to: receive a sequence of images of workpieces in the manufacturing line; extract feature data from the sequence of images; apply the feature data to a predictive model to detect anomalies in the manufacturing line; and generate annotations to locate the anomalies within the images.

A product distribution system including a chute and a controller. The chute includes a variable friction angled surface configured to receive a product and/or slidably transport the product along the angled surface. The controller is operatively coupled with the chute. The controller is configured to vary an amount of friction at the angled surface based on information about the product.