A conveyor system of a type having a flexible circuitous cable with discs attached thereto for conveying material through a circuitous tube, the system including a cable connector for attaching the ends of the cable together, the connector being designed to reduce cable flexing at the cable connector when the cable is going around a turn, for the purpose of increasing the life of the cable.

An in-line valve assembly for a tubular drag conveyer system includes a first tube segment having a first end and defining a first passageway, a second tube segment having a second end and defining a second passageway, and a tubular valve body translatably disposed relative to the second tube segment and defining a valve passageway. The first end of the first tube segment is spaced apart from the second end of the second tube segment by a gap. The valve body is selectively adjustable between a closed position wherein the valve passageway spans the gap and connects the first passageway to the second passageway and an open position wherein the valve passageway is spaced apart from the first passageway by at least a portion of the gap.

An in-line valve assembly for a tubular drag conveyer system includes a first tube segment having a first end and defining a first passageway, a second tube segment having a second end and defining a second passageway, and a tubular valve body translatably disposed relative to the second tube segment and defining a valve passageway. The first end of the first tube segment is spaced apart from the second end of the second tube segment by a gap. The valve body is selectively adjustable between a closed position wherein the valve passageway spans the gap and connects the first passageway to the second passageway and an open position wherein the valve passageway is spaced apart from the first passageway by at least a portion of the gap.

A disc for a cable conveyor comprised of a polymer formed from a resin including a blend of siloxane, and polyethylene. The siloxane may be a high molecular weight siloxane having a viscosity ranging from 10,000 cst. to 1,000,000 cst., preferably about 500,000 cst., and the polyethylene may be an ultra-high molecular weight polyethylene having a molecular weight ranging from 3 million grams/mol. to 8 million grams/mol., preferably about 3.5 million grams/mol. The siloxane is present in the blend from 0.5 percent to 30.0, preferably about 3.0 percent.

A disc for a cable conveyor comprised of a polymer formed from a resin including a blend of siloxane, and polyethylene. The siloxane may be a high molecular weight siloxane having a viscosity ranging from 10,000 cst. to 1,000,000 cst., preferably about 500,000 cst., and the polyethylene may be an ultra-high molecular weight polyethylene having a molecular weight ranging from 3 million grams/mol. to 8 million grams/mol., preferably about 3.5 million grams/mol. The siloxane is present in the blend from 0.5 percent to 30.0, preferably about 3.0 percent.

A simplified submerged chain conveyor system for handling ash produced by large-scale coal fired boilers. The system incorporates an endless chain conveyor system moving a coal/ash aqueous mixture within a conveyor segment having a hydraulically closed duct. The system is adapted for retrofit applications of existing coal-fired boiler installations. In each embodiment the chain conveyor elevates the aqueous ash solution to dewater the ash. In several embodiments the boiler ash hopper is partially flooded with water and the system moves the ash mixture through a water column to the dewatering section. In one embodiment the ash mixture is not submersed but is subjected to water sprays before reaching the dewatering section. Great flexibility is provided in locating and positioning the conveyor system. One unit may be implemented to provide ash handling for multiple boilers. Embodiments are described operable in continuous or batch mode processes.

A simplified submerged chain conveyor system for handling ash produced by large-scale coal fired boilers. The system incorporates an endless chain conveyor system moving a coal/ash aqueous mixture within a conveyor segment having a hydraulically closed duct. The system is adapted for retrofit applications of existing coal-fired boiler installations. In each embodiment the chain conveyor elevates the aqueous ash solution to dewater the ash. In several embodiments the boiler ash hopper is partially flooded with water and the system moves the ash mixture through a water column to the dewatering section. In one embodiment the ash mixture is not submersed but is subjected to water sprays before reaching the dewatering section. Great flexibility is provided in locating and positioning the conveyor system. One unit may be implemented to provide ash handling for multiple boilers. Embodiments are described operable in continuous or batch mode processes.

A flow-through discharge assembly having a rotatable tube section and an opening through which product is discharged and a positioning apparatus for rotating the tube section between operation and non-operational conditions. When the tube is positioned in an operational orientation, grain exits through the opening for discharge from the assembly. When the tube is returned to a non-operational condition, the tube opening is blocked and grain is prevented from exiting through the opening. The tube opening may be a single elongated opening or may include multiple tube openings through which product is discharged. A method of using a rotary discharge assembly to control grain flow within a grain handling system is also disclosed.

An automated tensioning system is provided for a conveyor with an endless traction element that travels around an adjustably mounted pulley or sprocket. The tensioning system includes a spring housing with a lead screw/drive shaft assembly located therein that has a pushing face that extends out of one housing end. A spring compression plate is threadingly engaged with the lead screw. A plate indicator is located on the spring compression plate. A tensioner spring is located between the tensioner spring support provided by a first housing end and the spring compression plate. A sensor is located on the spring housing that is configured to detect a position of the plate indicator. A driven wheel, rotationally engaged with the drive shaft and axially slideable thereon, is driven by a motor that is controlled by a controller configured to receive position data from the position sensor/drive shaft assembly and to actuate the motor to drive the driven wheel and rotate the lead screw and advance or retract the face so that a desired tension is maintained.

An automated tensioning system is provided for a conveyor. The tensioning system includes a spring housing with a lead screw/drive shaft assembly located therein that has a pushing face that extends out of one housing end. A spring compression plate is threadingly engaged with the lead screw. A plate indicator is located on the spring compression plate. A tensioner spring is located between the tensioner spring support provided by a first housing end and the spring compression plate. A sensor is located on the spring housing that is configured to detect a position of the plate indicator. A driven wheel, rotationally engaged with the drive shaft and axially slideable thereon, is driven by a motor to drive the driven wheel and rotate the lead screw and advance or retract the face so that a desired tension is maintained.