(PROBLEM) To provide a seamless conveyor belt comprising knit fabric. (SOLUTION MEANS) A seamless conveyor belt employing monofilament made up of continuous fiber at filament constituting core yarn; being made up of weft-knit or warp-knit in which there is mutual intertwining of filament; flexural stress and heat causing monofilament at core yarn to undergo plastic deformation at locations of entanglement; being a seamless knit belt (1a) comprising a knit pattern (8) which is weft-knit or warp-knit; being a knit pattern (8) in which pitch (Ps) of stitch loops in a width direction (18) is smaller than pitch (Pg) of stitch loops in a conveying direction (17) of the seamless knit belt; mutually contacting loops (9) and filament undergoing deformation; entangled regions of filament being maintained; fraying at side ends of the knit belt (1a) during conveyance by the conveyor belt being prevented; spacing of pitch (Ps) of stitch loops in the width direction (18) being small; and strength being improved.

(PROBLEM) To provide a seamless conveyor belt comprising knit fabric. (SOLUTION MEANS) A seamless conveyor belt employing monofilament made up of continuous fiber at filament constituting core yarn; being made up of weft-knit or warp-knit in which there is mutual intertwining of filament; flexural stress and heat causing monofilament at core yarn to undergo plastic deformation at locations of entanglement; being a seamless knit belt (1a) comprising a knit pattern (8) which is weft-knit or warp-knit; being a knit pattern (8) in which pitch (Ps) of stitch loops in a width direction (18) is smaller than pitch (Pg) of stitch loops in a conveying direction (17) of the seamless knit belt; mutually contacting loops (9) and filament undergoing deformation; entangled regions of filament being maintained; fraying at side ends of the knit belt (1a) during conveyance by the conveyor belt being prevented; spacing of pitch (Ps) of stitch loops in the width direction (18) being small; and strength being improved.

A compound balanced woven-wire conveyor belt including a plurality of interwoven helically-wound spirals and connector rods, and a plurality of spiral wires forming protruding tangs on a surface of the woven-wire belt. A conveyor system further includes at least one rotatable member including an outer cylindrical surface symmetrically disposed relative to a central axis of rotation of the rotatable member and a plurality of cavities on the outer cylindrical surface for engaging the protruding tangs of the woven-wire belt, each of the protruding tangs substantially corresponding to the cavities of the rotatable member.

A compound balanced woven-wire conveyor belt including a plurality of interwoven helically-wound spirals and connector rods, and a plurality of spiral wires forming protruding tangs on a surface of the woven-wire belt. A conveyor system further includes at least one rotatable member including an outer cylindrical surface symmetrically disposed relative to a central axis of rotation of the rotatable member and a plurality of cavities on the outer cylindrical surface for engaging the protruding tangs of the woven-wire belt, each of the protruding tangs substantially corresponding to the cavities of the rotatable member.

A spiral conveyor includes a mesh chain spirally wound around and rotate synchronously with an outer circumference of each rotary drums. The inner side of each chain link of the mesh chain close to the rotary drum is provided with a drive head extending towards a drum body of the rotary drum. The drive head is provided with a convex-arc edge and includes an arc slot provided on each of two sides or on a single side of the drive head. Driving poles are evenly distributed around the outer circumference of the rotary drum and engage with the drive heads of each layer. When the inner side of the mesh chain adapts to the perimeter of the outer side of the mesh chain, the drive head on the inner side of the mesh chain engages with the driving pole.

A spiral conveyor includes a mesh chain spirally wound around and rotate synchronously with an outer circumference of each rotary drums. The inner side of each chain link of the mesh chain close to the rotary drum is provided with a drive head extending towards a drum body of the rotary drum. The drive head is provided with a convex-arc edge and includes an arc slot provided on each of two sides or on a single side of the drive head. Driving poles are evenly distributed around the outer circumference of the rotary drum and engage with the drive heads of each layer. When the inner side of the mesh chain adapts to the perimeter of the outer side of the mesh chain, the drive head on the inner side of the mesh chain engages with the driving pole.

The present invention relates to belts useful in the manufacture of paper products, such as tissue paper. Particularly this invention relates to a belt used in a through-air drying process for making tissue products, and more particularly to an additively manufactured belt having a particular pattern thereon which imparts properties to tissue products manufactured therewith.

The present invention relates to belts useful in the manufacture of paper products, such as tissue paper. Particularly this invention relates to a belt used in a through-air drying process for making tissue products, and more particularly to an additively manufactured belt having a particular pattern thereon which imparts properties to tissue products manufactured therewith.

The conveyor belt (24) of an oven system and apparatus (20) is configured into ascending and descending spiral stacks (26) and (28) to define a central cylindrical channel (62). A pair of upper and lower fans (130) and (132) are positioned within the central channel (62) to circulate thermal processing fluid in upper and lower circuits vertically through the spiral stacks and also laterally toward the inlet of the fans (130) and (132) to set up upper and lower thermal processing zones in the spiral stacks and circulation routes for the cooking medium through the spiral stacks.

The conveyor belt (24) of an oven system and apparatus (20) is configured into ascending and descending spiral stacks (26) and (28) to define a central cylindrical channel (62). A pair of upper and lower fans (130) and (132) are positioned within the central cylindrical channel (62) to circulate thermal processing fluid in upper and lower circuits vertically through the spiral stacks and also laterally toward the inlet of the fans (130) and (132) to set up upper and lower thermal processing zones in the spiral stacks and circulation routes for the cooking medium through the spiral stacks.