A conveyor module includes a module body with a pair of first link ends extending in a first direction of travel and a second link end extending in a second direction of travel opposite the first direction. Each of the first and link ends has a transverse opening therethrough. At least one of the first link ends has a first mating portion. A pin is configured to be received in the first transverse openings of the module body. The pin has a shaft and a lever affixed at a first end of the shaft. The lever has a second mating portion configured to be rotatably coupled with the first mating portion of the module body, thereby preventing transverse movement of the shaft.

A conveyor belt and belt modules with plug-in accessories, such as sideguards. The accessories have plugs that plug into sockets in the belt or individual belt modules. Lugs and mounting slots and tabs and detents on the plugs and sockets help guide, register, and lock the accessories in place. The plugs and sockets allow the accessories to be locked and unlocked by twisting the plugs in the sockets.

A conveyor belt and belt modules with plug-in accessories, such as sideguards. The accessories have plugs that plug into sockets in the belt or individual belt modules. Lugs and mounting slots and tabs and detents on the plugs and sockets help guide, register, and lock the accessories in place. The plugs and sockets allow the accessories to be locked and unlocked by twisting the plugs in the sockets.

A conveyor belt and belt modules with plug-in accessories, such as sideguards. The accessories have plugs that plug into sockets in the belt or individual belt modules. Lugs and mounting slots and tabs and detents on the plugs and sockets help guide, register, and lock the accessories in place. The plugs and sockets allow the accessories to be locked and unlocked by twisting the plugs in the sockets.

A tray feeding system having a buffer conveyor for trays including a belt with spaced apart free running rollers having a rotation axis perpendicular to the conveying direction. These rollers extend upward from the belt such that the trays partly rest on the rollers. A tray conveyor receiving end is adjacent to an outputting end of the buffer conveyor where items are placed into the trays by a tray filler. A roller interactor is positioned below and adjacent to the surface of the buffer conveyor belt at an outputting end to engage with the rollers at the outputting end area when the buffer conveyor belts move forward rotating the rollers positioned within the outputting end area accelerating the trays on the buffer conveyor within the outputting end area of the buffer conveyor towards the receiving end of the tray conveyor.

A tray feeding system having a buffer conveyor for trays including a belt with spaced apart free running rollers having a rotation axis perpendicular to the conveying direction. These rollers extend upward from the belt such that the trays partly rest on the rollers. A tray conveyor receiving end is adjacent to an outputting end of the buffer conveyor where items are placed into the trays by a tray filler. A roller interactor is positioned below and adjacent to the surface of the buffer conveyor belt at an outputting end to engage with the rollers at the outputting end area when the buffer conveyor belts move forward rotating the rollers positioned within the outputting end area accelerating the trays on the buffer conveyor within the outputting end area of the buffer conveyor towards the receiving end of the tray conveyor.

Provided is a device discharging chips, which is configured to allow smooth transfer because it is possible to absorb transformation of connecting pins due to a force generated while chain belts are operating as well as smoothly discharging a coolant and chips.

A conveyor belt and a weighing system for weighing articles conveyed on a conveyor belt. The conveyor belt includes an array of force-sensing elements embedded in the belt to measure forces normal to the belt's conveying surface. The force-sensing elements form parts of passive resonant circuits that each include a capacitor and an inductive coil. Either the capacitor or the inductive coil can be a force-sensitive element. Measuring circuits external to the belt include an oscillator having a coil that inductively couples to the resonant circuit in the belt as it passes closely by. A force applied to the belt at a force-sensitive element changes the resonant frequency of its resonant circuit, which also causes a change in the oscillator frequency. Frequency detectors in the measuring circuits measure that frequency change and convert it into a proportional force value used to compute the weights of conveyed articles on the fly.

A conveyor belt and a weighing system for weighing articles conveyed on a conveyor belt. The conveyor belt includes an array of force-sensing elements embedded in the belt to measure forces normal to the belt's conveying surface. The force-sensing elements form parts of passive resonant circuits that each include a capacitor and an inductive coil. Either the capacitor or the inductive coil can be a force-sensitive element. Measuring circuits external to the belt include an oscillator having a coil that inductively couples to the resonant circuit in the belt as it passes closely by. A force applied to the belt at a force-sensitive element changes the resonant frequency of its resonant circuit, which also causes a change in the oscillator frequency. Frequency detectors in the measuring circuits measure that frequency change and convert it into a proportional force value used to compute the weights of conveyed articles on the fly.

Disclosed is a bellows protection connecting adjacent trolleys of a conveyor belt along an object transport line, where the conveyor belt includes trolleys movable along tracks and connected to one another by connectors allowing their reciprocal rotation at least around a vertical or horizontal axis. The device includes: a pleated covering positioned between two adjacent trolleys and connected thereto; a beam supporting the covering transversely to the direction of advancement of the transport line; and a base structure resisting vertically directed forces and supporting the beam. The base structure includes a reinforcing element binding in at least one point the beam. The reinforcing element includes: a first punctiform binder connecting it to at least one of the two trolleys; and a second punctiform binder connecting it to the at least one beam and adapted to avoid reciprocal transversal sliding between it and the at least one beam.