A conveyor system for a working machines such as a cold planer is disclosed. The working machine that can optionally have a frame, a rotor moveable relative to the frame to remove material from a surface of a working area and the conveyor system. The conveyor system can optionally include a first belt and a second belt. The conveyor system can be positioned to receive loose material from the rotor and transport the loose material relative to the frame away from the rotor. Optionally, the second belt can be positioned adjacent to and extending along the first belt and moveable relative to the frame.

A conveyor system for a working machines such as a cold planer is disclosed. The working machine that can optionally have a frame, a rotor moveable relative to the frame to remove material from a surface of a working area and the conveyor system. The conveyor system can optionally include a first belt and a second belt. The conveyor system can be positioned to receive loose material from the rotor and transport the loose material relative to the frame away from the rotor. Optionally, the second belt can be positioned adjacent to and extending along the first belt and moveable relative to the frame.

Disclosed is a conveyor system and method for advancing an item relative to a transport axis. The conveyor system includes a conveyor belt and a modular drive assembly having at least one drive module and at least one take-up module. Each drive module and each take-up module has a housing and a pulley assembly positioned within the housing. The respective positions of the housings of the at least one drive module and the at least one take-up module relative to the transport axis are selectively adjustable to modify the conveyor movement pathway. Moreover, the drive module can also include a drive pulley removal apparatus that is detachably secured within the housing for selective removal and replacement of a drive pulley.

A transport device for transporting upright containers arranged in a single row, comprising a first clamping belt and a second clamping belt, between which the containers arranged in a single row are held and transported, and at least one first rotary cylinder and one second rotary cylinder, around which the containers held by the clamping belts are transported. The containers and the clamping belts are guided one after the other around the at least two rotary cylinders in such a way that the containers are each pressed against the respective rotary cylinder by the radially outer clamping belt.

A logistics warehousing system includes a conveying device, a plurality of delivery containers, and at least one packing station. The conveying device includes an circular conveyor surrounding a central area. The circular conveyor circulates cyclically relative to the central area. The plurality of delivery containers include at least one first delivery container and at least one second delivery container different from the first delivery container. The plurality of delivery containers are placed on the circular conveyor and circulate along a circular track around the central area cyclically as the circular conveyor circulates. One of the packing stations receives one of the plurality of delivery containers from the conveying device.

An article transport apparatus includes a first belt conveyor (11), and a second belt conveyor (12) adjacent to the first belt conveyor (11) on a second side in the width direction (W2). The first belt conveyor (11) includes a first belt member (11B) forming a first transport surface (11F), and a second belt conveyor (12) includes a second belt member (12B) forming a second transport surface (12F). The first transport surface (11F) is configured to allow an article being transported to be placed thereon, and is inclined downward toward the second side in the width direction (W2), the second transport surface (12F) is configured to come into contact, from the second side in the width direction (W2), with the article placed on the first transport surface (11F), and a surface friction coefficient (μ1) of the first belt member (11B) and a surface friction coefficient (μ2) of the second belt member (12B) are different from each other.

A transport device for transporting upright containers arranged in a single row, comprising a first clamping belt and a second clamping belt, between which the containers arranged in a single row are held and transported, and at least one first rotary cylinder and one second rotary cylinder, around which the containers held by the clamping belts are transported. The containers and the clamping belts are guided one after the other around the at least two rotary cylinders in such a way that the containers are each pressed against the respective rotary cylinder by the radially outer clamping belt.

An efficient flexible sorting device for material flow is provided. The gear A is driven by the rotating motor, and the gear A meshes with the gear B, so that the rotating body can be rotated relative to the main frame according to the sorting direction actually required. The belt motor rotates the driving shaft through the small synchronous pulley, the synchronous belt, and the large synchronous pulley. The driving shaft drives the belt to move along the tensioning roller, the driving shaft, and the guiding pulley. The relative position of the tensioning roller and the rotating body is adjusted through the bolt F, the fixing plate and the nut F to ensure that the belt is tensioned, thereby realizing the sorting process.

An efficient flexible sorting device for material flow is provided. The gear A is driven by the rotating motor, and the gear A meshes with the gear B, so that the rotating body can be rotated relative to the main frame according to the sorting direction actually required. The belt motor rotates the driving shaft through the small synchronous pulley, the synchronous belt, and the large synchronous pulley. The driving shaft drives the belt to move along the tensioning roller, the driving shaft, and the guiding pulley. The relative position of the tensioning roller and the rotating body is adjusted through the bolt F, the fixing plate and the nut F to ensure that the belt is tensioned, thereby realizing the sorting process.

A conveyor belt includes core layers made of fabric disposed between an upper cover rubber and a lower cover rubber. At least one core layer has a strength in the belt width direction ranging from 30% to 70% of a strength in the belt longitudinal direction.