A conveyor system and method for spreading a mass of electrically conductive articles, such as aluminum cans, being transferred from an infeed conveyor to a wider discharge conveyor. A transfer device between the infeed and discharge conveyors uses linear induction to propel and spread electrically conductive articles across a continuous transfer surface with or without the aid of backpressure or mechanical spreading means.

A method for counting and aggregating a pre-determined number of articles includes: driving, by a conveyor, an article stream to move to an end of the conveyor in a single layer state; conveying the article stream in a periodic motion; after the articles in the article stream leave the conveyor, accurately counting the number of the articles; and when a total number of articles in a combination of temporary storage bin is the same as a target number, transporting all articles in the combination of temporary storage bin to a storage device. Article batches are separately delivered to different temporary storage bins, and the total number of articles in temporary storage bins in different combinations is calculated, so as to obtain with a combination in which the number of articles is the same as the target number. The operation efficiency is improved and the manufacturing cost of device is reduced.

Embodiments are directed to conveyor systems and methods for controlling induction of items within the conveyor systems. In one scenario, a conveyor control system implements a hardware sensor in a conveyor system to generate sensor readings regarding an operational status of a first zone in an operational environment, where the first zone is an area where orders are fulfilled. The conveyor control system receives sensor data from the hardware sensor of the conveyor system. The sensor data includes feedback information for controlling the conveyor system. The conveyor control system then evaluates the received sensor data to determine which conveyable items are currently in the first zone and, based on the evaluation, induces the conveyable items onto the conveyor for the first zone.

Embodiments are directed to conveyor systems and methods for controlling induction of items within the conveyor systems. In one scenario, a conveyor control system implements a hardware sensor in a conveyor system to generate sensor readings regarding an operational status of a first zone in an operational environment, where the first zone is an area where orders are fulfilled. The conveyor control system receives sensor data from the hardware sensor of the conveyor system. The sensor data includes feedback information for controlling the conveyor system. The conveyor control system then evaluates the received sensor data to determine which conveyable items are currently in the first zone and, based on the evaluation, induces the conveyable items onto the conveyor for the first zone.

Embodiments are directed to conveyor systems and methods for controlling induction of items within the conveyor systems. In one scenario, a conveyor control system implements a hardware sensor in a conveyor system to generate sensor readings regarding an operational status of a first zone in an operational environment, where the first zone is an area where orders are fulfilled. The conveyor control system receives sensor data from the hardware sensor of the conveyor system. The sensor data includes feedback information for controlling the conveyor system. The conveyor control system then evaluates the received sensor data to determine which conveyable items are currently in the first zone and, based on the evaluation, induces the conveyable items onto the conveyor for the first zone.

Embodiments are directed to conveyor systems and methods for controlling induction of items within the conveyor systems. In one scenario, a conveyor control system implements a hardware sensor in a conveyor system to generate sensor readings regarding an operational status of a first zone in an operational environment, where the first zone is an area where orders are fulfilled. The conveyor control system receives sensor data from the hardware sensor of the conveyor system. The sensor data includes feedback information for controlling the conveyor system. The conveyor control system then evaluates the received sensor data to determine which conveyable items are currently in the first zone and, based on the evaluation, induces the conveyable items onto the conveyor for the first zone.

A conveyor system and method for spreading a mass of electrically conductive articles, such as aluminum cans, being transferred from an infeed conveyor to a wider discharge conveyor. A transfer device between the infeed and discharge conveyors uses linear induction to propel and spread electrically conductive articles across a continuous transfer surface with or without the aid of backpressure or mechanical spreading means.

A method and device for conveying and grouping products by supplying the products in a first conveying direction on a track by a first conveying device, wherein the products are located one behind another at arbitrary spacings; grouping the products on the track by a grouping device so that a defined number of products are arranged at defined spacings one behind another in a formed product group on the track behind the grouping device in the conveying direction; and transferring the formed product group to a second conveying device for forwarding in a second conveying direction so that the products maintain their relative alignment at the defined spacings with respect to one another in the formed product group and are essentially located side by side in a row. In a multiple-track embodiment, a product matrix is formed from several product groups which are located side by side.

A method for counting and aggregating a pre-determined number of articles includes: driving, by a conveyor, an article stream to move to an end of the conveyor in a single layer state; conveying the article stream in a periodic motion; after the articles in the article stream leave the conveyor, accurately counting the number of the articles; and when a total number of articles in a combination of temporary storage bin is the same as a target number, transporting all articles in the combination of temporary storage bin to a storage device. Article batches are separately delivered to different temporary storage bins, and the total number of articles in temporary storage bins in different combinations is calculated, so as to obtain with a combination in which the number of articles is the same as the target number. The operation efficiency is improved and the manufacturing cost of device is reduced.

Embodiments are directed to conveyor systems and methods for controlling induction of items within the conveyor systems. In one scenario, a conveyor control system implements a hardware sensor in a conveyor system to generate sensor readings regarding an operational status of a first zone in an operational environment, where the first zone is an area where orders are fulfilled. The conveyor control system receives sensor data from the hardware sensor of the conveyor system. The sensor data includes feedback information for controlling the conveyor system. The conveyor control system then evaluates the received sensor data to determine which conveyable items are currently in the first zone and, based on the evaluation, induces the conveyable items onto the conveyor for the first zone.