A conveyor apparatus includes a supporting plate and a conveyor module. The supporting plate is connected to the conveyor module. The supporting plate includes a first power and communication terminal that is configured to provide the conveyor module with power and a communication connection. The conveyor module is connected to the supporting plate. The conveyor module is detachable and includes a second power and communication terminal that is connected to the first power and communication terminal to receive the power and to perform the communication connection. The first and second power and communication terminals are detachable, with an ability to be connected to and disconnected from each other.

An apparatus for guiding products along a conveyor in a conveying direction. The apparatus includes a first guiderail for at least partially forming a conveying path for articles on the conveyor. A guiderail adjuster includes a flexible or collapsible support, which make take the form of a linkage, and which provides support for the first guiderail along the conveyor. The flexible or collapsible support is adapted for being extended and retracted along a support rail extending in the conveying direction to selectively position the first guiderail relative to the conveyor, and thereby alter (increase or decrease) the width of the conveying path. Related methods are also disclosed.

An apparatus for guiding products along a conveyor in a conveying direction. The apparatus includes a first guiderail for at least partially forming a conveying path for articles on the conveyor. A guiderail adjuster includes a flexible or collapsible support, which make take the form of a linkage, and which provides support for the first guiderail along the conveyor. The flexible or collapsible support is adapted for being extended and retracted along a support rail extending in the conveying direction to selectively position the first guiderail relative to the conveyor, and thereby alter (increase or decrease) the width of the conveying path. Related methods are also disclosed.

A configurable belt conveyor for manufacturing comprising first belt and an adaptable border adjacent to the belt. The adaptable border having a first configuration in which a first width of the belt is available for supporting a pallet on the conveyor belt, and a second configuration in which a portion of the belt is covered by the adaptable border, such that the second width of the belt is sized for supporting a printed circuit board (PCB). In one embodiment, the configurable belt conveyor may be configured to form a dual stream conveyor.

A grouping station for grouping pallets includes an inbound conveyor, which is a gravity conveyor. The grouping station includes a fixed-height pairing conveyor and a grouping conveyor with three height positions for different grouping functions.

An endless conveyor device comprises a conveyor unit having at least one endless conveyor, which is configured to convey items; a drive roller assembly, which is drivable by a drive belt and configured to drive the endless conveyor and has a support element; a deflecting roller assembly and an intermediate body, disposed between the drive roller assembly and the deflecting roller assembly, as well as between a conveying strand and a return strand of the endless conveyor. The endless conveyor device further comprises a drive unit comprising the drive belt, a motor and a support device, which is configured to engage with the support element. The drive belt is relaxable by pivoting the conveyor unit relative to the drive unit about a rotation axis of the drive roller assembly in a first direction. A method for removing a conveyor unit from an endless conveyor device is also provided.

An endless conveyor device comprises a conveyor unit having at least one endless conveyor, which is configured to convey items; a drive roller assembly, which is drivable by a drive belt and configured to drive the endless conveyor and has a support element; a deflecting roller assembly and an intermediate body, disposed between the drive roller assembly and the deflecting roller assembly, as well as between a conveying strand and a return strand of the endless conveyor. The endless conveyor device further comprises a drive unit comprising the drive belt, a motor and a support device, which is configured to engage with the support element. The drive belt is relaxable by pivoting the conveyor unit relative to the drive unit about a rotation axis of the drive roller assembly in a first direction. A method for removing a conveyor unit from an endless conveyor device is also provided.

A thermal processing apparatus (20) includes a spiral conveyor system (22) configured into an ascending spiral stack (26). An air balance tunnel (40) includes a tunnel housing (76) positioned inside of a thermal processing chamber adjacent an outlet opening (36). A conveyor belt (24) travels through the housing on its way out of the processing chamber. An air pervious ejector assembly (78) is positioned within the housing at an elevation above the conveyor belt (24). An air pervious evacuation sheet (80) is located within the housing at a location beneath the conveyor belt (24). An air pervious cover assembly (150) is positioned over the conveyor belt (24) at a location just before the conveyor belt enters the air balance tunnel (40). The cover sheet (150) is connectable to the ejector assembly (78) so as to remove the ejector assembly from the tunnel housing (76) by manually moving the cover assembly (150).

A thermal processing apparatus (20) includes a spiral conveyor system (22) configured into an ascending spiral stack (26). An air balance tunnel (40) includes a tunnel housing (76) positioned inside of a thermal processing chamber adjacent an outlet opening (36). A conveyor belt (24) travels through the housing on its way out of the processing chamber. An air pervious ejector assembly (78) is positioned within the housing at an elevation above the conveyor belt (24). An air pervious evacuation sheet (80) is located within the housing at a location beneath the conveyor belt (24). An air pervious cover assembly (150) is positioned over the conveyor belt (24) at a location just before the conveyor belt enters the air balance tunnel (40). The cover sheet (150) is connectable to the ejector assembly (78) so as to remove the ejector assembly from the tunnel housing (76) by manually moving the cover assembly (150).

A conveyor is described. The conveyor includes a conveyor frame that includes a slot defined on a first portion of the conveyor frame and a notch defined on a second portion of the conveyor frame. Further, the conveyor includes a stanchion configured to be mounted on the conveyor frame. In this regard, the stanchion comprises a hook adapted to pass through the slot of the conveyor frame and a surface that defines an aperture, the aperture adapted to enable a bolt to pass through the stanchion and insert into the notch in the second portion of the conveyor frame.