A conveyor belt system provides a continuous flat support surface for a food item that moves the food item through a food preparation device. The conveyor belt system includes a conveyor belt having a plurality of spaced apart rods and a plurality of slats that are removably attached to the conveyor belt with a snap on mechanism. The slats are easily assembled and provide enhanced field service and/or replacement capability.

A flexible chain diverter system acts as a moveable diverter swing-arm capable of dispensing groups of bottles into the array of entrance gates for loading onto a shipping pallet. The flexible chain has a variable axial length. As a result of the ability to change in axial length, the diverter described herein can remain taut at the shortest distance gates and can stretch to reach gates at the maximum range of reach. This allows for the path length of travel to be optimized for any gate.

A continuous bar conveyor includes a plurality of bars, constrained at their ends by chains having links adapted to be engaged by motorized toothed wheels, so as to move the conveyor along fixed guides, and a plurality of spirals wrapping the bars in pairs, the links of the chains and the spirals limiting the maximum distance between adjacent bars, but also allowing their reciprocal movement, wherein, between adjacent successions of at least two bars wrapped by a spiral, there is at least one bar that is not wrapped by spirals, and to which a sheet of plastic material is constrained, having an elevated resistance to the operating temperature of the conveyor and a smooth, non-stick surface, the sheet resting on the upper surface defined by the spirals and having a dimension in the advancing direction of the conveyor smaller than the distance between successive bars not wrapped by spirals.

A flexible chain diverter system acts as a moveable diverter swing-arm capable of dispensing groups of bottles into the array of entrance gates for loading onto a shipping pallet. The flexible chain has a variable axial length. As a result of the ability to change in axial length, the diverter described herein can remain taut at the shortest distance gates and can stretch to reach gates at the maximum range of reach. This allows for the path length of travel to be optimized for any gate.

A laser cutting system wherein a conveyor system indexes sheet material through various processing stations, the processing stations operating simultaneously during the time period when the conveyor is stopped and wherein the conveyor system is in the form of an endless belt.

A device for transporting packagings, in particular packagings for foodstuffs, is disclosed. The device may include a frame, at least two pulleys mounted rotatably on the frame, at least one traction means which runs around the pulleys, and a plurality of mounts for receiving the packagings. The mounts may be connected to the traction means. To also allow the packagings to be precisely positioned in the case of long transportation distances, the traction means may be a belt, in particular a synchronous belt. A method for use of a device of this type for transporting packagings for foodstuffs, in particular composite packagings for foodstuffs, is also disclosed.

A laser cutting system wherein a conveyor system indexes sheet material through various processing stations, the processing stations operating simultaneously during the time period when the conveyor is stopped and wherein the conveyor system is in the form of an endless belt.

A continuous bar conveyor includes a plurality of bars, constrained at their ends by chains having links adapted to be engaged by motorized toothed wheels, so as to move the conveyor along fixed guides, and a plurality of spirals wrapping the bars in pairs, the links of the chains and the spirals limiting the maximum distance between adjacent bars, but also allowing their reciprocal movement, wherein, between adjacent successions of at least two bars wrapped by a spiral, there is at least one bar that is not wrapped by spirals, and to which a sheet of plastic material is constrained, having an elevated resistance to the operating temperature of the conveyor and a smooth, non-stick surface, the sheet resting on the upper surface defined by the spirals and having a dimension in the advancing direction of the conveyor smaller than the distance between successive bars not wrapped by spirals.

A flight conveyor for conveying material includes a frame, drive and idler wheel(s) rotatably mounted on the frame, segments for supporting the material, shafts for pivotally interconnecting the segments to an endless row which has an upper row and a lower row running, during operation, over the drive and idler wheel(s) and a number of conveyor flights for bringing the material along in the conveying direction. A scraper is arranged at the drive wheel for successively scraping off adhered material from segments and flights such that the conveyor can be used for conveying products tending to adhere to the surfaces of the segments and the flights since the adhered products are automatically removed by the scraper.

A drying system (100) for agricultural produce (5) is disclosed, comprising heat emitting sources (3), placed over a continuous moving grain bed with uniform thickness and with a consistent PEG, so that the heat imparted are uniform over the agricultural produce (5) at any given passage point. The system (100) comprises conveyor belts (9), having passes (10) and each pass (10) is adapted to transit the agricultural produce. Heat emitting sources (3) are placed above each pass (10) of the conveyor belt (9), and the heat emitting source (3) is adapted to radiate heat onto the agricultural produce. The heat emitting sources (3) are strategically placed at uniform height over a flowing bed of agricultural produce (5) with controlled thickness to have a preset Produce to Emitter Gap (PEG), and are charged in controlled way to emit pre-determined intensity of radiation or pre-determined temperature setting to be imparted on the agricultural produce (5).